This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 3.0 License.
Abdalla, M., Osborne, B., Lanigan, G., Forristal, D., Williams, M., Smith, P., Jones, M.B., 2013. Conservation tillage systems: a review of its consequences for greenhouse gas emissions. Soil Use and Management 29, 199–209.AbdallaM.OsborneB.LaniganG.ForristalD.WilliamsM.SmithP.JonesM.B.2013.Conservation tillage systems: a review of its consequences for greenhouse gas emissions.29,199–209.10.1111/sum.12030Search in Google Scholar
Ainsworth, E.A., Long, S.P., 2021. 30 years of free-air carbon dioxide enrichment (FACE): What have we learned about future crop productivity and its potential for adaptation? Global Change Biology 27, 27–49.AinsworthE.A.LongS.P.2021.30 years of free-air carbon dioxide enrichment (FACE): What have we learned about future crop productivity and its potential for adaptation?27,27–4910.1111/gcb.1537533135850Search in Google Scholar
Akiyama, H., Yan, X., Yagi, K., 2010. Evaluation of effectiveness of enhanced-efficiency fertilizers as mitigation options for N2O and NO emissions from agricultural soils: meta-analysis. Global Change Biology 16, 1837– 1846.AkiyamaHYanXYagiK2010.Evaluation of effectiveness of enhanced-efficiency fertilizers as mitigation options for N2O and NO emissions from agricultural soils: meta-analysis.16,1837–1846.10.1111/j.1365-2486.2009.02031.xSearch in Google Scholar
Appel, T., 2012. Boden-Bearbeitungssysteme im Fokus von Ökonomie und Ökologie. Handreichung für eine differenzierte Beurteilung. https://docplayer. org/56508740-Bodenbearbeitungssysteme-im-fokus-von-oekonomie-und-oekologie-handreichung-fuer-eine-differenzierte-beurteilung.html.AppelT2012..https://docplayer.org/56508740-Bodenbearbeitungssysteme-im-fokus-von-oekonomie-und-oekologie-handreichung-fuer-eine-differenzierte-beurteilung.html.Search in Google Scholar
Armbruster, M., Ebertseder, T., Finck, M., Gutser, R., Hor-lacher, D., Knoblauch, S., 2012. Vorschlag des AK Nach-haltige Nährstoffhaushalte im VDLUFA zur Novellierung der Düngeverordnung. https://www.vdlufa.de/de/index.php/fachinformationen-35/positionspapiere.ArmbrusterMEbertsederTFinckMGutserRHor-lacherDKnoblauchS2012.Vorschlag des AK Nach-haltige Nährstoffhaushalte im VDLUFA zur Novellierung der Düngeverordnung.https://www.vdlufa.de/de/index.php/fachinformationen-35/positionspapiere.Search in Google Scholar
Arnaud, E., Laporte, M.-A., Kim, S., Aubert, C., Leonelli, S., Miro, B., Cooper, L., Jaiswal, P., Kruseman, G., Shrestha, R., Buttigieg, P.L., Mungall, C.J., Pietragalla, J., Agbona, A., Muliro, J., Detras, J., Hualla, V., Rathore, A., Das, R.R., Dieng, I., Bauchet, G., Menda, N., Pommier, C., Shaw, F., Lyon, D., Mwanzia, L., Juarez, H., Bonaiuti, E., Chiputwa, B., Obileye, O., Auzoux, S., Yeumo, E.D., Mueller, L.A., Silverstein, K., Lafargue, A., Antezana, E., Devare, M., King, B., 2020. The ontologies community of practice: a CGIAR initiative for big data in agrifood systems. Patterns 1, 100105.ArnaudELaporteM.-A.KimSAubertCLeonelliSMiroBCooperLJaiswalPKrusemanGShres-thaRButtigiegP.L.MungallC.J.PietragallaJAgbonaAMuliroJDetrasJHuallaVRathoreADasR.R.DiengIBauchetGMendaNPommierC.ShawFLyonDMwanziaLJuarezHBonaiutiE.ChiputwaBObileyeOAuzouxSYeumoE.D.MuellerL.A.SilversteinKLafargueAAntezanaEDevareMKingB2020.The ontologies community of practice: a CGIAR initiative for big data in agrifood systems.1,100105.10.1016/j.patter.2020.100105766044433205138Search in Google Scholar
Arnold-Reimer, K., 1994. Einfluß konservierender Boden-bearbeitung auf Pflanzenkrankheiten und Unkräuter im Getreide und Konsequenzen für einen gezielten Pflanzenschutz. Zugl.: Göttingen, Univ., Diss., 1994. Cuvillier, Göttingen.Arnold-ReimerK1994.Einfluß konservierender Bodenbearbeitung auf Pflanzenkrankheiten und Unkräuter im Getreide und Konsequenzen für einen gezielten Pflanzenschutz. Zugl.:,1994.Cuvillier,Göttingen.Search in Google Scholar
Avraham, S., Tung, C.-W., Ilic, K., Jaiswal, P., Kellogg, E.A., McCouch, S., Pujar, A., Reiser, L., Rhee, S.Y., Sachs, M.M., Schaeffer, M., Stein, L., Stevens, P., Vincent, L., Zapata, F., Ware, D., 2008. The Plant Ontology Database: a community resource for plant structure and developmental stages controlled vocabulary and annotations. Nucleic Acids Research 36, D449-54.AvrahamSTungC.-W.IlicKJaiswalPKelloggE.A.McCouchSPujarAReiserLRheeS.Y.SachsM.M.SchaefferMSteinLStevensPVincentLZapataFWareD2008.The Plant Ontology Database: a community resource for plant structure and developmental stages controlled vocabulary and annotations.36,D449-54.10.1093/nar/gkm908223883818194960Search in Google Scholar
Barzman, M., Bàrberi, P., Birch, A.N.E., Boonekamp, P., Dachbrodt-Saaydeh, S., Graf, B., Hommel, B., Jensen, J.E., Kiss, J., Kudsk, P., Lamichhane, J.R., Messéan, A., Moonen, A.-C., Ratnadass, A., Ricci, P., Sarah, J.-L., Sattin, M., 2015. Eight principles of integrated pest management. Agronomy for Sustainable Development 35, 1199–1215.BarzmanMBàrberiPBirchA.N.E.BoonekampPDachbrodt-SaaydehSGrafBHommelBJensenJ.E.KissJKudskPLamichhaneJ.R.MesséanAMoonenA.-C.RatnadassARicciPSarahJ.-L.SattinM2015.Eight principles of integrated pest management.35,1199–121510.1007/s13593-015-0327-9Search in Google Scholar
Basche, A.D., Kaspar, T.C., Archontoulis, S.V., Jaynes, D.B., Sauer, T.J., Parkin, T.B., Miguez, F.E., 2016. Soil water improvements with the long-term use of a winter rye cover crop. Agricultural Water Management 172, 40–50.BascheA.D.KasparT.C.ArchontoulisS.V.JaynesD.B.SauerT.J.ParkinT.B.MiguezF.E.2016.Soil water improvements with the long-term use of a winter rye cover crop. Agricultural Water Management.172,40–5010.1016/j.agwat.2016.04.006Search in Google Scholar
Batáry, P., Dicks, L.V., Kleijn, D., Sutherland, W.J., 2015. The role of agri-environment schemes in conservation and environmental management. Conservation Biology 29, 1006–1016.BatáryPDicksL.V.KleijnDSutherlandW.J.2015.The role of agri-environment schemes in conservation and environmental management..29,1006–101610.1111/cobi.12536452973925997591Search in Google Scholar
Batáry, P., Matthiesen, T., Tscharntke, T., 2010. Landscapemoderated importance of hedges in conserving farmland bird diversity of organic vs. conventional croplands and grasslands. Biological Conservation 143, 2020–2027.BatáryPMatthiesenTTscharntkeT2010.Landscapemoderated importance of hedges in conserving farmland bird diversity of organic vs. conventional croplands and grasslands.143,2020–202710.1016/j.biocon.2010.05.005Search in Google Scholar
Becker, T., 2018. Systemanalyse Milch. Hintergründe für die Praxis. https://www.gruenlandzentrum.org/wp-content/uploads/2021/03/Systemanalyse-Milch.pdf.BeckerT2018.Systemanalyse Milch..https://www.gruenlandzentrum.org/wp-content/uploads/2021/03/Systemanalyse-Milch.pdf.Search in Google Scholar
Bengtsson, J., Ahnström, J., Weibull, A.-C., 2005. The effects of organic agriculture on biodiversity and abundance: a meta-analysis. Journal of Applied Ecology 42, 261–269.BengtssonJAhnströmJ.WeibullA.-C.2005.The effects of organic agriculture on biodiversity and abundance: a meta-analysis.42,261–26910.1111/j.1365-2664.2005.01005.xSearch in Google Scholar
Benton, T.G., Bryant, D.M., Cole, L., Crick, H.Q.P., 2002. Linking agricultural practice to insect and bird populations: a historical study over three decades. Journal of Applied Ecology 39, 673–687.BentonT.G.BryantD.M.ColeLCrickH.Q.P.2002.Linking agricultural practice to insect and bird populations: a historical study over three decades.39,673–68710.1046/j.1365-2664.2002.00745.xSearch in Google Scholar
Berner, A., Hildermann, I., Fliesbach, A., Pfiffner, L., Niggli, U., Mäder, P., 2008. Crop yield and soil fertility response to reduced tillage under organic management. Soil and Tillage Research 101, 89–96.BernerAHildermannIFliesbachAPfiffnerLNiggliUMäderP2008.Crop yield and soil fertility response to reduced tillage under organic management.101,89–9610.1016/j.still.2008.07.012Search in Google Scholar
Bioversity International, 2011. Crop ontology curation and annotation tool. http://www.cropontology.org.Bioversity International,2011..http://www.cropontology.org.Search in Google Scholar
Blanco-Canqui, H., Shaver, T.M., Lindquist, J.L., Shapiro, C.A., Elmore, R.W., Francis, C.A., Hergert, G.W., 2015. Cover crops and ecosystem services: insights from studies in temperate soils. Agronomy Journal 107, 2449–2474.Blanco-CanquiHShaverT.M.LindquistJ.L.ShapiroC.A.ElmoreR.W.FrancisC.A.HergertG.W.2015.Cover crops and ecosystem services: insights from studies in temperate soils.107,2449–247410.2134/agronj15.0086Search in Google Scholar
Blanco-Canqui, H., Laird, D.A., Heaton, E.A., Rathke, S., Acharya, B.S., 2020. Soil carbon increased by twice the amount of biochar carbon applied after 6 years: Field evidence of negative priming. GCB Bioenergy 12, 240–251.Blanco-CanquiHLairdD.A.HeatonE.A.RathkeSAcharyaB.S.2020.Soil carbon increased by twice the amount of biochar carbon applied after 6 years: Field evidence of negative priming.12,240–251.10.1111/gcbb.12665Search in Google Scholar
Blankenship, R.E., Tiede, D.M., Barber, J., Brudvig, G.W., Fleming, G., Ghirardi, M., Gunner, M.R., Junge, W., Kramer, D.M., Melis, A., Moore, T.A., Moser, C.C., Nocera, D.G., Nozik, A.J., Ort, D.R., Parson, W.W., Prince, R.C., Sayre, R.T., 2011. Comparing photosynthetic and photovoltaic efficiencies and recognizing the potential for improvement. Science 332, 805–809.BlankenshipR.E.TiedeD.M.BarberJBrudvigG.W.FlemingGGhirardiMGunnerM.R.JungeWKramerD.M.MelisAMooreT.A.MoserC.C.NoceraD.G.NozikA.J.OrtD.R.ParsonW.W.PrinceR.C.SayreR.T.2011.Comparing photosynthetic and photovoltaic efficiencies and recognizing the potential for improvement.332,805–80910.1126/science.120016521566184Search in Google Scholar
BMEL, 2020a. Ackerbaustrategie 2035. Perspektiven für einen produktiven und vielfältigen Pflanzenbau. https://www.bmel.de/DE/themen/landwirtschaft/pflanzenbau/ackerbau/ackerbaustrategie.html.BMEL,2020a.Ackerbaustrategie 2035..https://www.bmel.de/DE/themen/landwirtschaft/pflanzenbau/ackerbau/ackerbaustrategie.html.Search in Google Scholar
BMEL, 2020b. Die wirtschaftliche Lage der landwirtschaftlichen Betriebe. Buchführungsergebnisse der Testbetriebe des Wirtschaftsjahres 2018/2019. https://www.bmelstatistik.de/fileadmin/daten/BFB-0111001-2019.pdf.BMEL,2020b.Die wirtschaftliche Lage der landwirtschaftlichen Betriebe..https://www.bmelstatistik.de/fileadmin/daten/BFB-0111001-2019.pdf.Search in Google Scholar
BMEL, 2020c. Statistischer Monatsbericht Kap. A Nährstoffbilanzen und Düngemittel, Nährstoffbilanz insgesamt von 1990 bis 2018 (MBT-0111260-0000). https://www.bmel-statistik.de/landwirtschaft/statistischermonatsbericht-des-bmel-kapitel-a-landwirtschaft/.BMEL,2020c.Statistischer Monatsbericht Kap. A Nährstoffbilanzen und Düngemittel, Nährstoffbilanz insgesamt von 1990 bis 2018 (MBT-0111260-0000).https://www.bmel-statistik.de/landwirtschaft/statistischermonatsbericht-des-bmel-kapitel-a-landwirtschaft/.Search in Google Scholar
Böcker, T., Finger, R., 2016. European pesticide tax schemes in comparison: an analysis of experiences and developments. Sustainability 8, 378.BöckerTFingerR2016.European pesticide tax schemes in comparison: an analysis of experiences and developments.8,378.10.3390/su8040378Search in Google Scholar
Bodner, G., Loiskandl, W., Kaul, H.-P., 2007. Cover crop evapotranspiration under semi-arid conditions using FAO dual crop coefficient method with water stress compensation. Agricultural Water Management 93, 85–98.BodnerGLoiskandlWKaulH.-P.,2007.Cover crop evapotranspiration under semi-arid conditions using FAO dual crop coefficient method with water stress compensation.93,85–9810.1016/j.agwat.2007.06.010Search in Google Scholar
Bodner, G., Scholl, P., Loiskandl, W., Kaul, H.-P., 2013. Environmental and management influences on temporal variability of near saturated soil hydraulic properties. Geoderma 204-205, 120–129.BodnerGSchollPLoiskandlWKaulH.-P.,2013.Environmental and management influences on temporal variability of near saturated soil hydraulic properties.204-205,120–129.10.1016/j.geoderma.2013.04.015399041624748683Search in Google Scholar
Bolinder, M.A., Janzen, H.H., Gregorich, E.G., Angers, D.A., VandenBygaart, A.J., 2007. An approach for estimating net primary productivity and annual carbon inputs to soil for common agricultural crops in Canada. Agriculture, Ecosystems & Environment 118, 29–42.BolinderM.A.JanzenH.H.GregorichE.G.AngersD.A.VandenBygaartA.J.2007.An approach for estimating net primary productivity and annual carbon inputs to soil for common agricultural crops in Canada.118,29–4210.1016/j.agee.2006.05.013Search in Google Scholar
Bönecke, E., Breitsameter, L., Brüggemann, N., Chen, T.-W., Feike, T., Kage, H., Kersebaum, K.-C., Piepho, H.-P., Stützel, H., 2020. Decoupling of impact factors reveals the response of German winter wheat yields to climatic changes. Global Change Biology 26, 3601–3626.BöneckeEBreitsameterLBrüggemannNChenT.-W.FeikeTKageHKersebaumK.-C.PiephoH.-P.StützelH2020.Decoupling of impact factors reveals the response of German winter wheat yields to climatic changes.26,3601–362610.1111/gcb.1507332154969Search in Google Scholar
Boob, M., Grant, K., Thumm, U., Elsäßer, M., 2019. Steigerung der Biodiversität im intensiv genutzten Grünland durch blühende Randstreifen. In: Arbeitsgemeinschaft für Grünland und Futterbau (Ed.), Grünland 2050. LfLSchriftenreihe 6/2019, pp. 69–71.BoobMGrantKThummUElsäßerM2019.Steigerung der Biodiversität im intensiv genutzten Grünland durch blühende Randstreifen. In:(Ed.),Grünland2050. LfLSchriftenreihe 6/2019, pp.69–71.Search in Google Scholar
Borchard, N., Schirrmann, M., Cayuela, M.L., Kammann, C., Wrage-Mönnig, N., Estavillo, J.M., Fuertes-Mendizábal, T., Sigua, G., Spokas, K., Ippolito, J.A., Novak, J., 2019. Biochar, soil and land-use interactions that reduce nitrate leaching and N2O emissions: A meta-analysis. The Science of the Total Environment 651, 2354–2364.BorchardNSchirrmannMCayuelaM.L.KammannC Wrage-MönnigNEstavilloJ.M. Fuertes-MendizábalTSiguaGSpokasKIppolitoJ.A.NovakJ2019.Biochar, soil and land-use interactions that reduce nitrate leaching and N2O emissions: A meta-analysis.651,2354–236410.1016/j.scitotenv.2018.10.06030336425Search in Google Scholar
Bosch, S., Peyke, G., 2011. Gegenwind für die Erneuerbaren – Räumliche Neuorientierung der Wind-, Solar- und Bioenergie vor dem Hintergrund einer verringerten Akzeptanz sowie zunehmender Flächennutzungskonflikte im ländlichen Raum. Raumforschung und Raumordnung 69, 105–118.BoschSPeykeG2011.Gegenwind für die Erneuerbaren –Räumliche Neuorientierung der Wind-, Solar- und Bioenergie vor dem Hintergrund einer verringerten Akzeptanz sowie zunehmender Flächennutzungskonflikte im ländlichen Raum.69,105–11810.1007/s13147-011-0082-6Search in Google Scholar
Bouwman, A.F., 1996. Direct emission of nitrous oxide from agricultural soils. Nutrient Cycling in Agroecosystems 46, 53–70.BouwmanA.F.1996.Direct emission of nitrous oxide from agricultural soils.46,53–7010.1007/BF00210224Search in Google Scholar
Braun, J. von, 2018. Bioeconomy – The global trend and its implications for sustainability and food security. Global Food Security 19, 81–83.BraunJ. von,2018.Bioeconomy –The global trend and its implications for sustainability and food security.19,81–8310.1016/j.gfs.2018.10.003Search in Google Scholar
Brühl, C.A., Zaller, J.G., 2019. Biodiversity decline as a consequence of an inappropriate environmental risk assessment of pesticides. Frontiers in Environmental Science 7, 177. 177.BrühlC.A.ZallerJ.G.2019.Biodiversity decline as a consequence of an inappropriate environmental risk assessment of pesticides.7, 177. 177.10.3389/fenvs.2019.00177Search in Google Scholar
Brunotte, J., Lorenz, M., Sommer, C., Harrach, T., Schäfer, W., 2008. Verbreitung von Bodenschadverdichtungen in Südniedersachsen. Berichte über Landwirtschaft - Zeitschrift für Agrarpolitik und Landwirtschaft 86, 262–283.BrunotteJLorenzMSommerCHarrachTSchäferW2008.Verbreitung von Bodenschadverdichtungen in Südniedersachsen.86,262–283Search in Google Scholar
Bryant, R.H., Welten, B.G., Costall, D., Shorten, P.R., Edwards, G.R., 2018. Milk yield and urinary-nitrogen excretion of dairy cows grazing forb pasture mixtures designed to reduce nitrogen leaching. Livestock Science 209, 46–53.BryantR.H.WeltenB.G.CostallDShortenP.R.EdwardsG.R.2018.Milk yield and urinary-nitrogen excretion of dairy cows grazing forb pasture mixtures designed to reduce nitrogen leaching.209,46–5310.1016/j.livsci.2018.01.009Search in Google Scholar
Bühle, L., Hensgen, F., Donnison, I., Heinsoo, K., Wachendorf, M., 2012. Life cycle assessment of the integrated generation of solid fuel and biogas from biomass (IFBB) in comparison to different energy recovery, animal-based and non-refining management systems. Bioresource Technology 111, 230–239.BühleLHensgenFDonnisonIHeinsooKWachendorfM2012.Life cycle assessment of the integrated generation of solid fuel and biogas from biomass (IFBB) in comparison to different energy recovery, animal-based and non-refining management systems.111,230–23910.1016/j.biortech.2012.02.07222405758Search in Google Scholar
Bukowiecki, J., Rose, T., Kage, H., 2021. Sentinel-2 Data for Precision Agriculture?-A UAV-Based Assessment. Sensors (Basel, Switzerland) 21.BukowieckiJRoseTKageH2021.Sentinel-2 Data for Precision Agriculture?-A UAV-Based Assessment.21.10.3390/s21082861Search in Google Scholar
Bundesministerium der Justiz und für Verbraucherschutz, 2012. Gesetz zum Schutz der Kulturpflanzen (Pflanzenschutzgesetz). PflSchG. 44 S. http://www.gesetze-iminternet.de/pflschg_2012/PflSchG.pdf.Bundesministerium der Justiz und für Verbraucherschutz,2012.Gesetz zum Schutz der Kulturpflanzen (Pflanzenschutzgesetz).. 44 S.http://www.gesetze-iminternet.de/pflschg_2012/PflSchG.pdf.Search in Google Scholar
Busche, S., 2008. Reduktion des Pflanzenschutzmitteleinsatzes – Konsequenzen für das Schaderregerauftreten und die Wirtschaftlichkeit in Getreide-Zuckerrübe-Fruchtfolgen. Dissertation, Göttingen.BuscheS2008.Reduktion des Pflanzenschutzmitteleinsatzes –Konsequenzen für das Schaderregerauftreten und die Wirtschaftlichkeit in Getreide-Zuckerrübe- Fruchtfolgen..Search in Google Scholar
Buttigieg, P.L., Morrison, N., Smith, B., Mungall, C.J., Lewis, S.E., 2013. The environment ontology: contextualising biological and biomedical entities. Journal of Biomedical Semantics 4, 43.ButtigiegP.L.MorrisonNSmithBMungallC.J.LewisS.E.2013.The environment ontology: contextualising biological and biomedical entities.4,43.10.1186/2041-1480-4-43390446024330602Search in Google Scholar
Capriel, P., 2013. Trends in organic carbon and nitrogen contents in agricultural soils in Bavaria (south Germany) between 1986 and 2007. European Journal of Soil Science 64, 445–454.CaprielP2013.Trends in organic carbon and nitrogen contents in agricultural soils in Bavaria (south Germany) between 1986 and 2007.64,445–45410.1111/ejss.12054Search in Google Scholar
Chervet, A., Ramseier, L., Sturny, W.G., Zuber, M., Stettler, M., Weisskopf, P., Zihlmann, U., Martinze G., I., Keller, T., 2016. Erträge und Bodenparameter nach 20 Jahren Direktsaat und Pflug. Agrarforschung Schweiz 7, 216– 223.ChervetARamseierLSturnyW.G.ZuberMStettlerMWeisskopfPZihlmannUMartinzeG., I.KellerT2016.Erträge und Bodenparameter nach 20 Jahren Direktsaat und Pflug.7,216–223.Search in Google Scholar
Chèze, B., David, M., Martinet, V., 2020. Understanding farmers’ reluctance to reduce pesticide use: A choice experiment. Ecological Economics 167, 106349.ChèzeBDavidMMartinetV2020.Understanding farmers’ reluctance to reduce pesticide use: A choice experiment.167,106349.10.1016/j.ecolecon.2019.06.004Search in Google Scholar
Claupein, W., Ehlers, W., 1994. Approaches toward conservation tillage in Germany. In: Carter, M.R. (Ed.), Conservation tillage in temperate agroecosystems. CRC Revivals. CRC Press, Boca Raton, Florida, London, [England], New York, pp. 141–165.ClaupeinWEhlersW1994.Approaches toward conservation tillage in Germany. In: Carter, M.R. (Ed.), Conservation tillage in temperate agroecosystems..CRC Press, Boca Raton,Florida, London, [England], New York, pp.141–165.Search in Google Scholar
Cooper, J., Reed, E.Y., Hörtenhuber, S., Lindenthal, T., Løes, A.-K., Mäder, P., Magid, J., Oberson, A., Kolbe, H., Möller, K., 2018. Phosphorus availability on many organically managed farms in Europe. Nutrient Cycling in Agroecosystems 110, 227–239.CooperJReedE.Y.HörtenhuberSLindenthalTLøesA.-K.MäderPMagidJObersonAKolbeHMöllerK2018.Phosphorus availability on many organically managed farms in Europe.110,227–23910.1007/s10705-017-9894-2Search in Google Scholar
Dachbrodt-Saaydeh, S., Sellmann, J., Strassemeyer, J., Schwarz, J., Klocke, B., Krengel, S., Kehlenbeck, H., 2021. Netz Vergleichsbetriebe Pflanzenschutz: Jahresbericht 2017: Analyse der Ergebnisse der Jahre 2007 bis 2017. Berichte aus dem Julius Kühn-Institut 210. 146 S.Dachbrodt-SaaydehSSellmannJStrassemeyerJSchwarzJKlockeBKrengelSKehlenbeckH2021.Netz Vergleichsbetriebe Pflanzenschutz: Jahresbericht 2017: Analyse der Ergebnisse der Jahre 2007 bis 2017.210. 146 S.Search in Google Scholar
Dardonville, M., Urruty, N., Bockstaller, C., Therond, O., 2020. Influence of diversity and intensification level on vulnerability, resilience and robustness of agricultural systems. Agricultural Systems 184, 102913.DardonvilleMUrrutyNBockstallerCTherondO2020.Influence of diversity and intensification level on vulnerability, resilience and robustness of agricultural systems.184,102913.10.1016/j.agsy.2020.102913Search in Google Scholar
Daryanto, S., Wang, L., Jacinthe, P.A., 2017. Meta-Analysis of Phosphorus Loss from No-Till Soils. Journal of Environmental Quality 46, 1028–1037.DaryantoSWangLJacintheP.A.2017.Meta-Analysis of Phosphorus Loss from No-Till Soils.46,1028–103710.2134/jeq2017.03.012128991965Search in Google Scholar
Di Falco, S., 2012. On the value of agricultural biodiversity. Annual Review of Resource Economics 4, 207–223.Di FalcoS2012.On the value of agricultural biodiversity.4,207–22310.1146/annurev-resource-110811-114543Search in Google Scholar
Diakosavvas, D., Frezal, 2019. C. Bio-economy and the sustainability of the agriculture and food system. Opportunities and policy challenges. OECD Food, Agriculture and Fisheries Papers.DiakosavvasDFrezal2019.C. Bio-economy and the sustainability of the agriculture and food system..OECD Food, Agriculture and Fisheries Papers.Search in Google Scholar
Dieckmann, J., 2008. Zur Bedeutung der Bodenstruktur für den Ertrag von Zuckerrüben – eine pflanzenbauliche und ökonomische Analyse in einer Zuckerrüben-Getreide-Fruchtfolge mit dauerhaft differenzierter Bodenbearbeitung. Dissertation, Göttingen.DieckmannJ2008.Zur Bedeutung der Bodenstruktur für den Ertrag von Zuckerrüben –eine pflanzenbauliche und ökonomische Analyse in einer Zuckerrüben-Getreide-Fruchtfolge mit dauerhaft differenzierter Bodenbearbeitung..Search in Google Scholar
Dieker, P., Klimek, S., Dauber, J., 2021. Zielbilder für Biodiversität in Agrarlandschaften. Geographische Rundschau, 36–39.DiekerPKlimekSDauberJ2021.Zielbilder für Biodiversität in Agrarlandschaften.,36–39.Search in Google Scholar
Diez, T., Bachthaler, G., 1978. Auswirkungen unterschiedlicher Fruchtfolge, Düngung und Bodenbearbeitung auf den Humusgehalt der Böden. Bayer. Landw. Jahrbuch 55, 368–377.DiezTBachthalerG1978.Auswirkungen unterschiedlicher Fruchtfolge, Düngung und Bodenbearbeitung auf den Humusgehalt der Böden.55,368–377Search in Google Scholar
DLG, 2019. Nachhaltige Landwirtschaft. https://www.dlgnachhaltigkeit.info/de/.DLG,2019..https://www.dlgnachhaltigkeit.info/de/.Search in Google Scholar
Dodd, R.J., Sharpley, A.N., 2016. Conservation practice effectiveness and adoption: unintended consequences and implications for sustainable phosphorus management. Springer; Springer Netherlands. Nutrient Cycling in Agroecosystems 104, 373–392.DoddR.J.SharpleyA.N.2016.Conservation practice effectiveness and adoption: unintended consequences and implications for sustainable phosphorus management.Springer;Springer Netherlands.104,373–39210.1007/s10705-015-9748-8Search in Google Scholar
Don, A., Flessa, 2018. H., Marx, K., Poeplau, C., Tiemeyer, B., Osterburg, B. Die 4-Promille-Initiative „Böden für Ernährungssicherung und Klima“. Wissenschaftliche Bewertung und Diskussion möglicher Beiträge in Deutschland. Johann Heinrich von Thünen-Institut (Ed.). Thünen Working Paper 112.DonAFlessaH.2018.MarxKPoeplauCTiemeyerB.OsterburgB.Die 4-Promille-Initiative „Böden für Ernährungssicherung und Klima“.Johann Heinrich von Thünen-Institut(Ed.). Thünen Working Paper112.Search in Google Scholar
Dudley, N., Attwood, S.J., Goulson, D., Jarvis, D., Bharucha, Z.P., Pretty, J., 2017. How should conservationists respond to pesticides as a driver of biodiversity loss in agroecosystems? Biological Conservation 209, 449–453.DudleyNAttwoodS.J.GoulsonDJarvisDBharuchaZ.P.PrettyJ2017.How should conservationists respond to pesticides as a driver of biodiversity loss in agroecosystems?209,449–45310.1016/j.biocon.2017.03.012Search in Google Scholar
EEA, 2004. High nature value farmland. Characteristics, trends and policy challenges. EEA report. Office for Official Publ. of the Europ. Communities, Luxembourg.EEA,2004.High nature value farmland. Characteristics, trends and policy challenges..Office for Official Publ. of the Europ. Communities,Luxembourg.Search in Google Scholar
Eglington, S., 2009. Understanding the causes of decline in breeding bird numbers in England. British Trust for Ornithology. BTO Report Research 562, Thetford. 124 S. https://www.bto.org/sites/default/files/shared_documents/publications/research-reports/2014/rr562.pdf.EglingtonS2009.Understanding the causes of decline in breeding bird numbers in England..562,Thetford. 124 S.https://www.bto.org/sites/default/files/shared_documents/publications/research-reports/2014/rr562.pdf.Search in Google Scholar
Ellenberg, H., Leuschner, C., 2010. Vegetation Mitteleuropas mit den Alpen. in ökologischer, dynamischer und historischer Sicht. UTB Botanik, Ökologie, Agrar- und Forstwissenschaften, Geographie. Ulmer, Stuttgart.EllenbergHLeuschnerC2010.Vegetation Mitteleuropas mit den Alpen. in.UTB Botanik, Ökologie, Agrar- und Forstwissenschaften,Geographie.Ulmer, Stuttgart.Search in Google Scholar
Erlach, F., Lütke Entrup, N., Gröblinghoff, F.-F., 2008. Strategien zur Minderung diffuser Einträge von herbiziden Wirkstoffen in Oberflächengewässer - Vergleich verschiedener Bestellverfahren auf Parzellen mit Mais in Nordrhein-Westfalen. Pflanzenbauwissenschaften 12, 41–50.ErlachFLütke EntrupNGröblinghoffF.-F.2008.Strategien zur Minderung diffuser Einträge von herbiziden Wirkstoffen in Oberflächengewässer - Vergleich verschie- dener Bestellverfahren auf Parzellen mit Mais in Nordrhein-Westfalen.12,41–50Search in Google Scholar
EU Nitrogen Expert Panel, 2015. Nitrogen Use Efficiency (NUE) - an indicator for the utilization of nitrogen in agriculture and food systems. Wageningen University, Alterra, PO Box 47, NL-6700 Wageningen, Netherlands. 47 S. http://www.eunep.com/wp-content/ uploads/2017/03/Report-NUE-Indicator-Nitrogen-Expert-Panel-18-12-2015.pdf.EU Nitrogen Expert Panel,2015.. 47 S.http://www.eunep.com/wp-content/uploads/2017/03/Report-NUE-Indicator-Nitrogen-Expert-Panel-18-12-2015.pdf.Search in Google Scholar
European Commission, 2020. Farm to Fork Strategy. For a fair, healthy and environmentally-friendly food system. European Commission. https://ec.europa.eu/food/horizontal-topics/farm-fork-strategy_de.European Commission,2020..European Commission.https://ec.europa.eu/food/horizontal-topics/farm-fork-strategy_de.Search in Google Scholar
Everwand, G., Cass, S., Dauber, J., Williams, M., Stout, J., 2017. Legume crops and biodiversity. In: Murphy-Bokern, D., Stoddard, F.L., Watson, C.A. (Eds.), Legumes in cropping systems. CABI, Wallingford, Oxfordshire, UK, Boston, MA, pp. 55–69.EverwandGCassSDauberJWilliamsMStoutJ2017.Legume crops and biodiversity. In:Murphy-BokernDStoddardF.L.WatsonC.A.(Eds.),.CABI, Wallingford, Oxfordshire, UKBoston, MA, pp.55–69.10.1079/9781780644981.0055Search in Google Scholar
FAIRagro, 2022. FAIRagro. https://www.fairagro.net.FAIRagro,2022..https://www.fairagro.net.Search in Google Scholar
FAO, 2022. AGROVOC. https://www.fao.org/agrovoc.FAO,2022..https://www.fao.org/agrovoc.Search in Google Scholar
Farruggia, A., Dumont, B., Scohier, A., Leroy, T., Pradel, P., Garel, J.-P., 2012. An alternative rotational stocking management designed to favour butterflies in permanent grasslands. Grass and Forage Science 67, 136–149.FarruggiaADumontBScohierALeroyTPradelPGarelJ.-P.2012.An alternative rotational stocking management designed to favour butterflies in permanent grasslands.67,136–14910.1111/j.1365-2494.2011.00829.xSearch in Google Scholar
Feike, T., Riedesel Freiherr Zu Eisenbach, Ludwig, Lieb, R., Gabriel, D., Sabboura, D., Shawon, A.R., Wetzel, M., Klocke, B., Krengel-Horney, S., Schwarz, J., 2020. Einfluss von Pflanzenschutzstrategie und Bodenbearbeitung auf den CO2-Fußabdruck von Weizen. Journal für Kulturpflanzen 72, 311–326.FeikeTLiebR.GabrielDSabbouraDShawonA.R.WetzelMKlockeBKrengel-HorneySSchwarzJ2020.Einfluss von Pflanzenschutzstrategie und Bodenbearbeitung auf den CO2-Fußabdruck von Weizen.72,311–326Search in Google Scholar
Firbank, L.G., 2005. Striking a new balance between agricultural production and biodiversity. Annals of Applied Biology 146, 163–175.FirbankL.G.2005.Striking a new balance between agricultural production and biodiversity.146,163–17510.1111/j.1744-7348.2005.040078.xSearch in Google Scholar
Flade, M., 2012. Von der Energiewende zum Biodiversitäts-Desaster – zur Lage des Vogelschutzes in Deutschland. Vogelwelt 133, 149–158.FladeM2012.Von der Energiewende zum Biodiversitäts-Desaster –zur Lage des Vogelschutzes in Deutschland.133,149–158Search in Google Scholar
Flessa, H., Ruser, R., Dörsch, P., Kamp, T., Jimenez, M., Munch, J., Beese, F., 2002. Integrated evaluation of greenhouse gas emissions (CO2, CH4, N2O) from two farming systems in southern Germany. Agriculture, Ecosystems & Environment 91, 175–189.FlessaHRuserRDörschPKampTJimenezMMunchJBeeseF2002.Integrated evaluation of greenhouse gas emissions (CO2, CH4, N2O) from two farming systems in southern Germany.91,175–18910.1016/S0167-8809(01)00234-1Search in Google Scholar
FNR, 2022. Basisdaten Nachwachsende Rohstoffe. https://basisdaten.fnr.de/land-und-forstwirtschaft/landwirtschaft.FNR,2022..https://basisdaten.fnr.de/land-und-forstwirtschaft/landwirtschaft.Search in Google Scholar
Fortmann, H., Rademacher, P., Groh, H., Höper, H., 2012. Stoffgehalte und -vorräte im Boden und deren Veränderungen. In: Höper, H., Meesenburg, H. (Eds.), Tagungsband 20 Jahre Bodendauerbeobachtung in Niedersachsen, Hannover, pp. 48–69.FortmannHRademacherPGrohHHöperH2012.Stoffgehalte und -vorräte im Boden und deren Veränderungen. In:HöperHMeesenburgH.(Eds.),,Hannover, pp.48–69.Search in Google Scholar
Fuller, R.J., Norton, L.R., Feber, R.E., Johnson, P.J., Chamberlain, D.E., Joys, A.C., Mathews, F., Stuart, R.C., Townsend, M.C., Manley, W.J., Wolfe, M.S., Macdonald, D.W., Firbank, L.G., 2005. Benefits of organic farming to biodiversity vary among taxa. Biology Letters 1, 431–434.FullerR.J.NortonL.R.FeberR.E.JohnsonP.J.ChamberlainD.E.JoysA.C.MathewsFStuartR.C.TownsendM.C.ManleyW.J.WolfeM.S.MacdonaldD.W.FirbankL.G.2005.Benefits of organic farming to biodiversity vary among taxa.1,431–43410.1098/rsbl.2005.0357162636817148225Search in Google Scholar
Gabriel, D., Sait, S.M., Hodgson, J.A., Schmutz, U., Kunin, W.E., Benton, T.G., 2010. Scale matters: the impact of organic farming on biodiversity at different spatial scales. Ecology Letters 13, 858–869.GabrielDSaitS.M.HodgsonJ.A.SchmutzUKuninW.E.BentonT.G.2010.Scale matters: the impact of organic farming on biodiversity at different spatial scales.13,858–86910.1111/j.1461-0248.2010.01481.x20482572Search in Google Scholar
Gabriel, D., Sait, S.M., Kunin, W.E., Benton, T.G., 2013. Food production vs. biodiversity: comparing organic and conventional agriculture. Journal of Applied Ecology 50, 355–364.GabrielDSaitS.M.KuninW.E.BentonT.G.2013.Food production vs. biodiversity: comparing organic and conventional agriculture.50,355–36410.1111/1365-2664.12035Search in Google Scholar
Gaynor, J.D., Findlay, W.I., 1995. Soil and phosphorus loss from conservation and conventional tillage in corn production. Journal of Environmental Quality 24, 734–741.GaynorJ.D.FindlayW.I.1995.Soil and phosphorus loss from conservation and conventional tillage in corn production.24,734–74110.2134/jeq1995.00472425002400040026xSearch in Google Scholar
Geiger, F., van der Lubbe, S., Brunsting, A.M.H., Snoo, G.R. de, 2010. Insect abundance in cow dung pats of different farming systems. entomologische berichten 70, 106-110.GeigerFvan der LubbeSBrunstingA.M.H.SnooG.R. de2010.Insect abundance in cow dung pats of different farming systems.70,106-110.Search in Google Scholar
Germeier, C.U., Unger, S., 2019. Modeling crop genetic resources phenotyping information systems. Frontiers in Plant Science 10, 728. 728.GermeierC.U.UngerS2019.Modeling crop genetic resources phenotyping information systems.10, 728. 728.10.3389/fpls.2019.00728Search in Google Scholar
Gerowitt, B., Schröder, S., Dempfle, L., Engels, E.-M., Engels, J., Feindt, P.H., Graner, A., Hamm, U., Heißen-huber, A., Schulte-Coerne, H., Wolters, V., 2013. Biodiversität im Grünland – unverzichtbar für Landwirtschaft und Gesellschaft. Stellungnahme des Wissenschaftlichen Beirats für Biodiversität und Genetische Ressourcen beim Bundesministerium für Ernährung, Landwirtschaft und Verbraucherschutz. BMELV. 20 S.GerowittBSchröderSDempfleLEngelsE.-M.EngelsJFeindtP.H.GranerAHammUHeißen-huberASchulte-CoerneHWoltersV2013.Biodiversität im Grünland –unverzichtbar für Landwirtschaft und Gesellschaft..Search in Google Scholar
Gillum, M., Johnson, P., Hudson, D., Williams, R., 2016. Fieldprint Calculator: A tool to evaluate the effects of management on physical sustainability. Crops & Soils 49, 26–29.GillumMJohnsonPHudsonDWilliamsR2016.Fieldprint Calculator: A tool to evaluate the effects of management on physical sustainability.49,26–2910.2134/cs2016-49-1-7Search in Google Scholar
Gottwald, F., Stein-Bachinger, K., 2016. Landwirtschaft für Artenvielfalt. Ein Naturschutzmodul für ökologisch wirtschaftende Betriebe. 2. Auflage. WWF Deutschland. 106 S. www.landwirtschaft-artenvielfalt.de.GottwaldFStein-BachingerK2016.Landwirtschaft für Artenvielfalt.. 2. Auflage. WWF Deutschland. 106 S.www.landwirtschaft-artenvielfalt.de.Search in Google Scholar
Grethe, H., Martinez, J., Osterburg, B., Taube, F., Thom, F., 2021. Klimaschutz im Agrar- und Ernährungssystem Deutschlands: Die drei zentralen Handlungsfelder auf dem Weg zu Klimaneutralität. Gutachten für die Stiftung Klimaneutralität. Stiftung Klimaneutralität. 110 S. https://www.stiftung-klima.de/app/ uploads/2021/06/2021-06-01-Klimaneutralitaet_Landwirtschaft.pdf.GretheHMartinezJOsterburgBTaubeFThomF.2021.Klimaschutz im Agrar- und Ernährungssystem Deutschlands: Die drei zentralen Handlungsfelder auf dem Weg zu Klimaneutralität. Gutachten für die Stiftung Klimaneutralität.. 110 S.https://www.stiftung-klima.de/app/uploads/2021/06/2021-06-01-Klimaneutralitaet_Landwirtschaft.pdf.Search in Google Scholar
Gutsche, V., Strassemeyer, J., 2007. SYNOPS – ein Modell zur Bewertung des Umwelt-Risikopotentials von chemischen Pflanzenschutzmitteln. Nachrichtenblatt des Deutschen Pflanzenschutzdienstes 59, 197–210.GutscheVStrassemeyerJ2007.SYNOPS –ein Modell zur Bewertung des Umwelt-Risikopotentials von chemischen Pflanzenschutzmitteln.59,197–210Search in Google Scholar
Haller, L., Moakes, S., Niggli, U., Riedel, J., Stolze, M., Thompson, M., 2020. Entwicklungsperspektiven der ökologischen Landwirtschaft in Deutschland. Umweltbundesamt (Ed.). Texte 32/2020. 152 S. https://www.umweltbundesamt.de/publikationen/entwicklungsperspektiven-der-oekologischen.HallerLMoakesSNiggliURiedelJStolzeMThompsonM2020..Umweltbundesamt(Ed.). Texte 32/2020. 152 S.https://www.umweltbundesamt.de/publikationen/entwicklungsperspektiven-der-oekologischen.Search in Google Scholar
Hallmann, C.A., Sorg, M., Jongejans, E., Siepel, H., Hofland, N., Schwan, H., Stenmans, W., Müller, A., Sumser, H., Hörren, T., Goulson, D., Kroon, H. de, 2017. More than 75 percent decline over 27 years in total flying insect biomass in protected areas. PloS one 12, e0185809.HallmannC.A.SorgMJongejansESiepelHHoflandNSchwanHStenmansWMüllerASumserHHörrenTGoulsonDKroonH. de,2017.More than 75 percent decline over 27 years in total flying insect biomass in protected areas.12,e0185809.10.1371/journal.pone.0185809564676929045418Search in Google Scholar
He, M., Dijkstra, F.A., 2014. Drought effect on plant nitrogen and phosphorus: a meta-analysis. New Phytologist 204, 924–931.HeMDijkstraF.A.2014.Drought effect on plant nitrogen and phosphorus: a meta-analysis.204,924–93110.1111/nph.1295225130263Search in Google Scholar
Heap, I., 2014. Herbicide Resistant Weeds. In: Pimentel, D., Peshin, R. (Eds.), Integrated Pest Management: Pesticide Problems. Springer, Dordrecht, pp. 281–301.HeapI2014.Herbicide Resistant Weeds. In:PimentelDPeshinR.(Eds.),.Springer,Dordrecht, pp.281–301.10.1007/978-94-007-7796-5_12Search in Google Scholar
Heinz, S., Mayer, F., Kuhn, G., 2014. Artenreiches Grünland in Bayern. Tagungsband 58. Jahrestagung der Arbeitsgemeinschaft Grünland und Futterbau, 28.-30. Aug. 2014, Arnstadt 58, 49–54.HeinzSMayerFKuhnG2014.Artenreiches Grünland in Bayern. Tagungsband 58., 28.-30. Aug. 2014,Arnstadt58,49–54Search in Google Scholar
Heinz, S., Mayer, F., Kuhn, G., 2015. Grünlandmonitoring Bayern - Evaluierung der Agrarumweltmaßnahmen. Bayerische Landesanstalt für Landwirtschaft. 87 S. https://www.lfl.bayern.de/mam/cms07/publikationen/daten/schriftenreihe/gruendlandmonitorin-bayern-evaluierung_lfl-schriftenreihe.pdf.HeinzSMayerFKuhnG2015.Grünlandmonitoring Bayern - Evaluierung der Agrarumweltmaßnahmen.. 87 S.https://www.lfl.bayern.de/mam/cms07/publikationen/daten/schriftenreihe/gruendlandmonitorin-bayern-evaluierung_lfl-schriftenreihe.pdf.Search in Google Scholar
Heldbjerg, H., Fox, A.D., Levin, G., Nyegaard, T., 2016. The decline of the Starling Sturnus vulgaris in Denmark is related to changes in grassland extent and intensity of cattle grazing. Agriculture, Ecosystems & Environment 230, 24–31.HeldbjergHFoxA.D.LevinGNyegaardT2016.The decline of the Starling Sturnus vulgaris in Denmark is related to changes in grassland extent and intensity of cattle grazing.230,24–3110.1016/j.agee.2016.05.025Search in Google Scholar
Herrmann, M., Federle, C., Röhrig, M., Kleinhenz, B., 2021. Teilflächenspezifisches Prognosemodell zur räumlichen Verteilung von Fusarium-Halmbasisverbräunung. Journal für Kulturpflanzen 73, 131–139.HerrmannMFederleCRöhrigMKleinhenzB2021.Teilflächenspezifisches Prognosemodell zur räumlichen Verteilung von Fusarium-Halmbasisverbräunung.73,131–139Search in Google Scholar
Heyn, J., Olfs, H.-W., 2018. Wirkungen reduzierter N-Düngung auf Produktivität, Bodenfruchtbarkeit und N-Austragsgefährdung – Beurteilung anhand mehrjähriger Feldversuche. VDLUFA (Ed.). VDLUFA-Schriftenreihe 72.HeynJOlfsH.-W.,2018.Wirkungen reduzierter N-Düngung auf Produktivität, Bodenfruchtbarkeit und N-Austragsgefährdung –Beurteilung anhand mehrjähriger Feldversuche.(Ed.). VDLUFA-Schriftenreihe72.Search in Google Scholar
Hirel, B., Le Gouis, J., Ney, B., Gallais, A., 2007. The challenge of improving nitrogen use efficiency in crop plants: towards a more central role for genetic variability and quantitative genetics within integrated approaches. Journal of Experimental Botany 58, 2369–2387.HirelBLe GouisJNeyBGallaisA2007.The challenge of improving nitrogen use efficiency in crop plants: towards a more central role for genetic variability and quantitative genetics within integrated approaches.58,2369–238710.1093/jxb/erm09717556767Search in Google Scholar
Hobbs, P.R., Sayre, K., Gupta, R., 2008. The role of conservation agriculture in sustainable agriculture. Philosophical Transactions of the Royal Society of London. Series B, Biological sciences 363, 543–555.HobbsP.R.SayreKGuptaR2008.The role of conservation agriculture in sustainable agriculture.363,543–55510.1098/rstb.2007.2169261016917720669Search in Google Scholar
Hofer, D., Suter, M., Haughey, E., Finn, J.A., Hoekstra, N.J., Buchmann, N., Lüscher, A., 2016. Yield of temperate forage grassland species is either largely resistant or resilient to experimental summer drought. Journal of Applied Ecology 53, 1023–1034.HoferDSuterMHaugheyEFinnJ.A.HoekstraN.J.BuchmannNLüscherA2016.Yield of temperate forage grassland species is either largely resistant or resilient to experimental summer drought.53,1023–103410.1111/1365-2664.12694Search in Google Scholar
Hofmeister, H., Garve, E., 2006. Lebensraum Acker. Verlag Kessel, Remagen.HofmeisterHGarveE2006..Verlag Kessel,Remagen.Search in Google Scholar
Holzschuh, A., Steffan-Dewenter, I., Kleijn, D., Tscharntke, T., 2007. Diversity of flower-visiting bees in cereal fields: effects of farming system, landscape composition and regional context. Journal of Applied Ecology, 44(1), 41-49.HolzschuhASteffan-DewenterIKleijnDTscharntkeT2007.Diversity of flower-visiting bees in cereal fields: effects of farming system, landscape composition and regional context.,44(1),41-49.10.1111/j.1365-2664.2006.01259.xSearch in Google Scholar
Horneburg, B., 2006. Outcrossing in lentil (Lens culinaris) depends on cultivar, location and year, and varies within cultivars. Plant Breeding 125, 638–640.HorneburgB2006.Outcrossing in lentil (Lens culinaris) depends on cultivar, location and year, and varies within cultivars.125,638–64010.1111/j.1439-0523.2006.01290.xSearch in Google Scholar
Hossard, L., Archer, D.W., Bertrand, M., Colnenne-David, C., Debaeke, P., Ernfors, M., Jeuffroy, M.-H., Munier-Jolain, N., Nilsson, C., Sanford, G.R., Snapp, S.S., Jensen, E.S., Makowski, D., 2016. A meta-analysis of maize and wheat yields in low-input vs. conventional and organic systems. Agronomy Journal 108, 1155.HossardLArcherD.W.BertrandMColnenne-DavidC.DebaekePErnforsMJeuffroyM.-H.Munier-JolainNNilssonCSanfordG.R.SnappS.S.JensenE.S.MakowskiD2016.A meta-analysis of maize and wheat yields in low-input vs. conventional and organic systems.108,1155.10.2134/agronj2015.0512Search in Google Scholar
Hossard, L., Philibert, A., Bertrand, M., Colnenne-David, C., Debaeke, P., Munier-Jolain, N., Jeuffroy, M.H., Richard, G., Makowski, D., 2014. Effects of halving pesticide use on wheat production. Scientific Reports 4, 4405.HossardLPhilibertABertrandMColnenne-DavidCDebaekePMunier-JolainNJeuffroyM.H.RichardGMakowskiD2014.Effects of halving pesticide use on wheat production.4,4405.10.1038/srep04405396094424651597Search in Google Scholar
Hötker, V., Dierschke, V., Flade, M., Leuschner, C., 2014. Diversitätsverluste in der Brutvogelwelt des Acker- und Grünlands. Natur und Landschaft 89, 410–416.HötkerVDierschkeVFladeMLeuschnerC2014.Diversitätsverluste in der Brutvogelwelt des Acker- und Grünlands.89,410–416Search in Google Scholar
Hou, Y., Velthof, G.L., Lesschen, J.P., Staritsky, I.G., Oenema, O., 2017. Nutrient recovery and emissions of ammonia, nitrous oxide, and methane from animal manure in Europe: effects of manure treatment technologies. Environmental Science & Technology 51, 375–383.HouYVelthofG.L.LesschenJ.P.StaritskyI.G.OenemaO2017.Nutrient recovery and emissions of ammonia, nitrous oxide, and methane from animal manure in Europe: effects of manure treatment technologies.51,375–38310.1021/acs.est.6b0452427997150Search in Google Scholar
Huguenin-Elie, O., Delaby, L., Le Clec’h, S., Moreno, G.M., Teixeira, R.F.M., Schneider, M.K., 2018. Optimising ecosystem services provided by grassland systems. Teagasc, Animal & Grassland Research and Innovation Centre. Sustainable meat and milk production from grasslands. Proceedings of the 27th General Meeting of the European Grassland Federation, Cork, Ireland, 17-21 June 2018, 520–534.Huguenin-ElieODelabyLLe Clec’hS.MorenoG.M.TeixeiraR.F.M.SchneiderM.K.2018.Optimising ecosystem services provided by grassland systems.Proceedings of the 27th General Meeting of the European Grassland Federation,Cork, Ireland,17-21 June2018,520–534Search in Google Scholar
Humbert, J.-Y., Ghazoul, J., Sauter, G.J., Walter, T., 2010. Impact of different meadow mowing techniques on field invertebrates. Journal of Applied Entomology 134, 592– 599.HumbertJ.-Y.GhazoulJSauterG.J.WalterT2010.Impact of different meadow mowing techniques on field invertebrates.134,592–599.10.1111/j.1439-0418.2009.01503.xSearch in Google Scholar
Hünig, C., Benzler, A., 2017. Das Monitoring der Landwirtschaftsflächen mit hohem Naturwert in Deutschland. BfN-Skripten 476, Bonn-Bad Godesberg. 46 S.HünigCBenzlerA2017.Das Monitoring der Landwirtschaftsflächen mit hohem Naturwert in Deutschland.476,Bonn-Bad Godesberg. 46 S.Search in Google Scholar
Hunt, J.R., Celestina, C., Kirkegaard, J.A., 2020. The realities of climate change, conservation agriculture and soil carbon sequestration. Global Change Biology 26, 3188–3189.HuntJ.R.CelestinaCKirkegaardJ.A.2020.The realities of climate change, conservation agriculture and soil carbon sequestration.26,3188–318910.1111/gcb.1508232167619Search in Google Scholar
Hüwing, H., 2008. Vergleich der Winterweizenproduktion ökologisch und konventionell wirtschaftender Betriebe in Schleswig-Holstein – COMPASS (Comparative Assessment of Land Use Systems). Dissertation Kiel.HüwingH2008.Vergleich der Winterweizenproduktion ökologisch und konventionell wirtschaftender Betriebe in Schleswig-Holstein –COMPASS (Comparative Assessment of Land Use Systems)..Search in Google Scholar
Ineichen, S., Marquardt, S., Wettstein, H.-R., Kreuzer, M., Reidy, B., 2019. Milk fatty acid profile and nitrogen utilization of dairy cows fed ryegrass-red clover silage containing plantain (Plantago lanceolata L.). Livestock Science 221, 123–132.IneichenSMarquardtSWettsteinH.-R.KreuzerMReidyB2019.Milk fatty acid profile and nitrogen utilization of dairy cows fed ryegrass-red clover silage containing plantain (Plantago lanceolata L.).221,123–13210.1016/j.livsci.2019.01.018Search in Google Scholar
IPCC, 2019. Climate Change and Land. An IPCC Special Report on climate change, desertification, land degradation, sustainable land management, food security, and greenhouse gas fluxes in terrestrial ecosystems. Intergovernmental Panel on Climate Change. Shukla, P.R., Skea, J., Calvo Buendia, E., Masson-Delmotte, V., Pörtner, H.-O., Roberts, D.C., Zhai, P., Slade, R., Connors, S., van Diemen, R., Ferrat, M., Haughey, E., Luz, S., Neogi, S., Pathak, M., Petzold, J., Portugal Pereira, J., Vyas, P., Huntley, E., Kissick, K., Belkacemi, M., Malley, J. (Eds.). 906 S. https://www.ipcc.ch/srccl/.IPCC,2019.Climate Change and Land. An IPCC Special Report on climate change, desertification, land degradation, sustainable land management, food security, and greenhouse gas fluxes in terrestrial ecosystems..ShuklaP.R.SkeaJCalvo BuendiaEMasson-DelmotteVPörtnerH.-O.RobertsD.C.ZhaiPSladeRConnorsSvan DiemenRFerratMHaugheyELuzS.NeogiSPathakMPetzoldJPortugal PereiraJVyasPHuntleyEKissickKBelkacemiMMalleyJ.(Eds.). 906 S.https://www.ipcc.ch/srccl/.Search in Google Scholar
Isbell, F., Reich, P.B., Tilman, D., Hobbie, S.E., Polasky, S., Binder, S., 2013. Nutrient enrichment, biodiversity loss, and consequent declines in ecosystem productivity. Proceedings of the National Academy of Sciences of the United States of America 110, 11911–11916.IsbellFReichP.B.TilmanDHobbieS.E.PolaskySBinderS2013.Nutrient enrichment, biodiversity loss, and consequent declines in ecosystem productivity.110,11911–1191610.1073/pnas.1310880110371809823818582Search in Google Scholar
ISIP, 2022. ISIP - das Informationssystem für die integrierte Pflanzenproduktion. https://www.isip.de/isip/servlet/ isip-de.ISIP,2022..https://www.isip.de/isip/servlet/isip-de.Search in Google Scholar
IVPTI, 2022. The International „4 per 1000“ Initiative. Soils for Food Security and Climate. https://www.4p1000.org.IVPTI,2022.The International “4 per 1000” Initiative..https://www.4p1000.org.Search in Google Scholar
Jackson, L.E., Pascual, U., Hodgkin, T., 2007. Utilizing and conserving agrobiodiversity in agricultural landscapes. Agriculture, Ecosystems & Environment 121, 196–210.JacksonL.E.PascualUHodgkinT2007.Utilizing and conserving agrobiodiversity in agricultural landscapes.121,196–21010.1016/j.agee.2006.12.017Search in Google Scholar
Jansen-Willems, A.B., Lanigan, G.J., Grünhage, L., Müller, C., 2016. Carbon cycling in temperate grassland under elevated temperature. Ecology and Evolution 6, 7856– 7868.Jansen-WillemsA.B.LaniganG.J.GrünhageLMüllerC2016.Carbon cycling in temperate grassland under elevated temperature.6,7856–7868.10.1002/ece3.2210609316730128135Search in Google Scholar
Jedicke, E., 2014. Ökosystemleistungen des Grünlands– welche Grünlandnutzung brauchen wir? In: Multifunktionalität des Dauergrünlandes erhalten und nutzen. Tagungsband 58. Jahrestagung der Arbeitsgemeinschaft Grünland und Futterbau der Gesellschaft für Pflanzenbauwissenschaften, pp. 9–19.JedickeE2014.Ökosystemleistungen des Grünlands–welche Grünlandnutzung brauchen wir? In: Multifunktionalität des Dauergrünlandes erhalten und nutzen. Tagungsband 58., pp.9–19.Search in Google Scholar
Jeffery, S., Abalos, D., Prodana, M., Bastos, A.C., van Groenigen, J.W., Hungate, B.A., Verheijen, F., 2017. Biochar boosts tropical but not temperate crop yields. IOP Publishing Ltd. Environmental Research Letters 12, 53001.JefferySAbalosDProdanaMBastosA.C.van GroenigenJ.W.HungateB.A.VerheijenF2017.Biochar boosts tropical but not temperate crop yields. IOP Publishing Ltd.12,53001.10.1088/1748-9326/aa67bdSearch in Google Scholar
JKI, 2022. Synopsweb. http://synops.julius-kuehn.de/.JKI,2022..http://synops.julius-kuehn.de/.Search in Google Scholar
Jordan, V.W.L., Hutcheon, J.A., Kendall, D.A., 1997. Influences of cultivation practices on arable crop pests, diseases and weeds and their control requirements. Proceedings of EC-workshop on EC concerted Action No. AIR 3-CT93-1464 Band III. In: Tebrügge, F., Böhrnsen, A. (Eds.), Experience with the applicability of notillage crop production in the West-European countries. Proceedings of EC-workshop on EC concerted Action No. AIR 3-CT93-1464 Band III. Wissenschaftlicher Fachverlag Dr. Fleck, Gießen, pp. 43–50.JordanV.W.L.HutcheonJ.A.KendallD.A.1997.Influences of cultivation practices on arable crop pests, diseases and weeds and their control requirements.Proceedings of EC-workshop on EC concerted Action No. AIR 3-CT93-1464 Band III.In:TebrüggeFBöhrnsenA.(Eds.),Experience with the applicability of notillage crop production in the West-European countries.Proceedings of EC-workshop on EC concerted Action No. AIR 3-CT93-1464 Band III. Wissenschaftlicher Fachverlag Dr. Fleck,Gießen, pp.43–50.Search in Google Scholar
Judson, H.G., Fraser, P.M., Peterson, M.E., Edwards, G.R., 2018. Specific genotypes of plantain (Plantago lanceolata) vary in their impact on sheep urine volume and nitrification in the urine patch. Journal of New Zealand Grasslands 80, 125–128.JudsonH.G.FraserP.M.PetersonM.E.EdwardsG.R.2018.Specific genotypes of plantain (Plantago lanceolata) vary in their impact on sheep urine volume and nitrification in the urine patch.80,125–12810.33584/jnzg.2018.80.335Search in Google Scholar
Juroszek, P., Racca, P., Link, S., Farhumand, J., Kleinhenz, B., 2020. Overview on the review articles published during the past 30 years relating to the potential climate change effects on plant pathogens and crop disease risks. John Wiley & Sons, Ltd. Plant Pathology 69, 179–193.JuroszekPRaccaPLinkSFarhumandJKleinhenzB2020..John Wiley & Sons, Ltd. Plant Pathology69,179–19310.1111/ppa.13119Search in Google Scholar
Kage, H., Räbiger, T., Sieling, K., 2022. Stickstoffdüngung zu Winterraps und Winterweizen. Eine Evaluierung der Düngeverordnung, methodischer Aspekte der Auswertung von Düngeversuchen sowie der Beziehung zwischen Düngungshöhe und Stickstoffauswaschung. Berichte über Landwirtschaft Zeitschrift für Agrarpolitik und Landwirtschaft 100.KageHRäbigerTSielingK2022.Stickstoffdüngung zu Winterraps und Winterweizen.Eine Evaluierung der Düngeverordnung, methodischer Aspekte der Auswertung von Düngeversuchen sowie der Beziehung zwischen Düngungshöhe und Stickstoffauswaschung.100.Search in Google Scholar
Kagiya, N., Reinsch, T., Taube, F., Salminen, J.-P., Kluß, C., Hasler, M., Malisch, C.S., 2019. Turnover rates of roots vary considerably across temperate forage species. Soil Biology and Biochemistry 139, 107614.KagiyaNReinschTTaubeFSalminenJ.-P.KlußC.HaslerMMalischC.S.2019.Turnover rates of roots vary considerably across temperate forage species.139,107614.10.1016/j.soilbio.2019.107614Search in Google Scholar
Kahmen, A., Perner, J., Buchmann, N., 2005. Diversitydependent productivity in semi-natural grasslands following climate perturbations. Functional Ecology 19, 594–601.KahmenAPernerJBuchmannN2005.Diversitydependent productivity in semi-natural grasslands following climate perturbations.19,594–60110.1111/j.1365-2435.2005.01001.xSearch in Google Scholar
Kanter, D.R., Searchinger, T.D., 2018. A technology-forcing approach to reduce nitrogen pollution. Nature Sustainability 1, 544–552.KanterD.R.SearchingerT.D.2018.A technology-forcing approach to reduce nitrogen pollution.1,544–55210.1038/s41893-018-0143-8Search in Google Scholar
Kassam, A., Friedrich, T., Shaxson, F., Pretty, J., 2009. The spread of Conservation Agriculture: justification, sustainability and uptake. International Journal of Agricultural Sustainability 7, 292–320.KassamAFriedrichTShaxsonFPrettyJ2009.The spread of Conservation Agriculture: justification, sustainability and uptake.7,292–32010.3763/ijas.2009.0477Search in Google Scholar
Kayatz, B., Baroni, G., Hillier, J., Lüdtke, S., Heathcote, R., Malin, D., van Tonder, C., Kuster, B., Freese, D., Hüttl, R., Wattenbach, M., 2019. Cool Farm Tool Water: A global on-line tool to assess water use in crop production. Journal of Cleaner Production 207, 1163–1179.KayatzBBaroniGHillierJLüdtkeSHeathcoteRMalinDvan TonderCKusterBFreeseDHüttlRWattenbachM2019.Cool Farm Tool Water: A global on-line tool to assess water use in crop production.207,1163–117910.1016/j.jclepro.2018.09.160677165331598037Search in Google Scholar
Klaus, V.H., Hölzel, N., Prati, D., Schmitt, B., Schöning, I., Schrumpf, M., Solly, E.F., Hänsel, F., Fischer, M., Kleine-becker, T., 2016. Plant diversity moderates drought stress in grasslands: Implications from a large real-world study on (13)C natural abundances. The Science of the Total Environment 566-567, 215–222.KlausV.H.HölzelNPratiDSchmittBSchöningISchrumpfMSollyE.F.HänselFFischerMKleine-beckerT2016.Plant diversity moderates drought stress in grasslands: Implications from a large real-world study on (13)C natural abundances.566-567,215–222.10.1016/j.scitotenv.2016.05.00827220098Search in Google Scholar
Kleijn, D., Rundlöf, M., Scheper, J., Smith, H.G., Tscharntke, T., 2011. Does conservation on farmland contribute to halting the biodiversity decline? Trends in Ecology & Evolution 26, 474–481.KleijnDRundlöfM.ScheperJSmithH.G.TscharntkeT.2011.Does conservation on farmland contribute to halting the biodiversity decline?26,474–48110.1016/j.tree.2011.05.00921703714Search in Google Scholar
Klik, A., Rosner, J., 2020. Long-term experience with conservation tillage practices in Austria: Impacts on soil erosion processes. Soil and Tillage Research 203, 104669.KlikARosnerJ2020.Long-term experience with conservation tillage practices in Austria: Impacts on soil erosion processes.203,104669.10.1016/j.still.2020.104669Search in Google Scholar
Klink, H., Verreet, J.-A., Hasler, M., Birr, T., 2021. Will triazoles still be of importance in disease control of Zymoseptoria tritici in the future? Agronomy 11, 933.KlinkHVerreetJ.-A.HaslerMBirrT2021.Will triazoles still be of importance in disease control of Zymoseptoria tritici in the future?11,933.10.3390/agronomy11050933Search in Google Scholar
Klocke, B., Dachbrodt-Saaydeh, S., 2016. Die Tücken liegen im Detail. DLG-Mitteilungen: Agrarmanagement, Trends & Perspektiven 131, 56–59.KlockeBDachbrodt-SaaydehS2016.Die Tücken liegen im Detail.131,56–59Search in Google Scholar
Kolbe, H., 2015. Bodenfruchtbarkeit - Grundlage erfolgreicher Landwirtschaft. In: Bodenfruchtbarkeit - Grundlage erfolgreicher Landwirtschaft. BAD Tagungsband 2015, Frankfurt/Main, pp. 89–123.KolbeH2015.Bodenfruchtbarkeit - Grundlage erfolgreicher Landwirtschaft. In:.BAD Tagungsband2015, Frankfurt/Main, pp.89–123.Search in Google Scholar
Konefal, J., Hatanaka, M., Constance, D.H., 2019. Multistakeholder initiatives and the divergent construction and implementation of sustainable agriculture in the USA. Renewable Agriculture and Food Systems 34, 293–303.KonefalJHatanakaMConstanceD.H.2019.Multistakeholder initiatives and the divergent construction and implementation of sustainable agriculture in the USA.34,293–30310.1017/S1742170517000461Search in Google Scholar
Krause, B., Wesche, K., Culmsee, H., Leuschner, C., 2014. Diversitätsverluste und floristischer Wandel im Grünland seit 1950. W.Kohlhammer GmbH. Natur und Landschaft 89, 399–404.KrauseBWescheKCulmseeHLeuschnerC2014.Diversitätsverluste und floristischer Wandel im Grünland seit 1950.89,399–404Search in Google Scholar
Kremen, C., Williams, N.M., Thorp, R.W., 2002. Crop pollination from native bees at risk from agricultural intensification. Proceedings of the National Academy of Sciences of the United States of America 99, 16812–16816.KremenCWilliamsN.M.ThorpR.W.2002.Crop pollination from native bees at risk from agricultural intensification.99,16812–1681610.1073/pnas.26241359913922612486221Search in Google Scholar
Kruska, V., Emmerling, C., 2008. Flächennutzungswandel durch Biogaserzeugung. Regionale und lokale Erhebungen in Rheinland-Pfalz. Naturschutz und Landschaftsplanung 40, 69–72.KruskaVEmmerlingC2008.Flächennutzungswandel durch Biogaserzeugung. Regionale und lokale Erhebungen in Rheinland-Pfalz.40,69–72Search in Google Scholar
Küstermann, B., Christen, O., Hülsbergen, K.-J., 2010. Modelling nitrogen cycles of farming systems as basis of siteand farm-specific nitrogen management. Agriculture, Ecosystems & Environment 135, 70–80.KüstermannBChristenOHülsbergenK.-J.2010.Modelling nitrogen cycles of farming systems as basis of siteand farm-specific nitrogen management.135,70–8010.1016/j.agee.2009.08.014Search in Google Scholar
Küstermann, B., Kainz, M., Hülsbergen, K.-J., 2008. Modeling carbon cycles and estimation of greenhouse gas emissions from organic and conventional farming systems. Renewable Agriculture and Food Systems 23, 38–52.KüstermannBKainzMHülsbergenK.-J.2008.Modeling carbon cycles and estimation of greenhouse gas emissions from organic and conventional farming systems.23,38–5210.1017/S1742170507002062Search in Google Scholar
Laidig, F., Feike, T., Hadasch, S., Rentel, D., Klocke, B., Miedaner, T., Piepho, H.P., 2021. Breeding progress of disease resistance and impact of disease severity under natural infections in winter wheat variety trials. Theoretical and Applied Genetics 134, 1281–1302.LaidigFFeikeTHadaschSRentelDKlockeBMiedanerTPiephoH.P.2021.Breeding progress of disease resistance and impact of disease severity under natural infections in winter wheat variety trials.134,1281–130210.1007/s00122-020-03728-4808171533713338Search in Google Scholar
Lamichhane, J.R., Arendse, W., Dachbrodt-Saaydeh, S., Kudsk, P., Roman, J.C., van Bijsterveldt-Gels, J.E., Wick, M., Messéan, A., 2015. Challenges and opportunities for integrated pest management in Europe: A telling example of minor uses. Crop Protection 74, 42–47.LamichhaneJ.R.ArendseWDachbrodt-SaaydehSKudskPRomanJ.C.van Bijsterveldt-GelsJ.E.WickMMesséanA2015.Challenges and opportunities for integrated pest management in Europe: A telling example of minor uses.74,42–4710.1016/j.cropro.2015.04.005Search in Google Scholar
Lang, M., Prestele, J., Fischer, C., Kollist, H., Albrecht, H., 2016. Reintroduction of rare arable plants by seed transfer. What are the optimal sowing rates? Ecology and Evolution 6, 5506–5516.LangMPresteleJFischerCKollistHAlbrechtH2016.Reintroduction of rare arable plants by seed transfer. What are the optimal sowing rates?6,5506–551610.1002/ece3.2303498452127551400Search in Google Scholar
Lauri, P.-É., Barkaoui, K., Ater, M., Rosati, A., 2019. Agroforestry for fruit trees in Europe and Mediterranean North Africa. In: Mosquera-Losada, M.R., Prabhu, R. (Eds.), Agroforestry for sustainable agriculture. Burleigh Dodds Series in Agricultural Science. Burleigh Dodds Science Publishing, pp. 385–418.LauriP.-É.BarkaouiKAterMRosatiA2019.Agroforestry for fruit trees in Europe and Mediterranean North Africa. In:Mosquera-LosadaM.R.PrabhuR.(Eds.),Agroforestry for sustainable agriculture..Burleigh Dodds Science Publishing, pp.385–418.10.19103/AS.2018.0041.18Search in Google Scholar
Le Clec’h, S., Finger, R., Buchmann, N., Gosal, A.S., Hörtnagl, L., Huguenin-Elie, O., Jeanneret, P., Lüscher, A., Schneider, M.K., Huber, R., 2019. Assessment of spatial variability of multiple ecosystem services in grasslands of different intensities. Journal of Environmental Management 251, 109372.Le Clec’hS.FingerRBuchmannNGosalA.S.HörtnaglLHuguenin-ElieOJeanneretPLüscherASchneiderM.K.HuberR2019.Assessment of spatial variability of multiple ecosystem services in grasslands of different intensities.251,109372.10.1016/j.jenvman.2019.10937231550606Search in Google Scholar
Lechenet, M., Dessaint, F., Py, G., Makowski, D., MunierJolain, N., 2017. Reducing pesticide use while preserving crop productivity and profitability on arable farms. Nature Plants 3, 17008.LechenetMDessaintFPyGMakowskiDMunier-JolainN2017.Reducing pesticide use while preserving crop productivity and profitability on arable farms.3,17008.10.1038/nplants.2017.828248316Search in Google Scholar
Libohova, Z., Seybold, C., Wysocki, D., Wills, S., Schoeneberger, P., Williams, C., Lindbo, D., Stott, D., Owens, P.R., 2018. Reevaluating the effects of soil organic matter and other properties on available water-holding capacity using the National Cooperative Soil Survey Characterization Database. Soil and Water Conservation Society. Journal of Soil and Water Conservation 73, 411–421.LibohovaZSeyboldCWysockiDWillsSSchoenebergerPWilliamsCLindboDStottDOwensP.R.2018.Reevaluating the effects of soil organic matter and other properties on available water-holding capacity using the National Cooperative Soil Survey Characterization Database.73,411–42110.2489/jswc.73.4.411Search in Google Scholar
Lipiec, J., Stępniewski, W., 1995. Effects of soil compaction and tillage systems on uptake and losses of nutrients. Soil and Tillage Research 35, 37–52.LipiecJStępniewskiW1995.Effects of soil compaction and tillage systems on uptake and losses of nutrients.35,37–5210.1016/0167-1987(95)00474-7Search in Google Scholar
Liu, X.J., Mosier, A.R., Halvorson, A.D., Reule, C.A., Zhang, F.S., 2007. Dinitrogen and N2O emissions inarable soils: Effect of tillage, N source and soil moisture. Soil Biology and Biochemistry 39, 2362–2370.LiuX.J.MosierA.R.HalvorsonA.D.ReuleC.A.ZhangF.S.2007.Dinitrogen and N2O emissions inarable soils: Effect of tillage, N source and soil moisture.39,2362–237010.1016/j.soilbio.2007.04.008Search in Google Scholar
Lorenz, H., Reinsch, T., Hess, S., Taube, F., 2019. Is low-input dairy farming more climate friendly? A meta-analysis of the carbon footprints of different production systems. Journal of Cleaner Production 211, 161–170.LorenzHReinschTHessSTaubeF2019.Is low-input dairy farming more climate friendly? A meta-analysis of the carbon footprints of different production systems.211,161–17010.1016/j.jclepro.2018.11.113Search in Google Scholar
Lugato, E., Leip, A., Jones, A., 2018. Mitigation potential of soil carbon management overestimated by neglecting N2O emissions. Nature Climate Change 8, 219–223.LugatoELeipAJonesA2018.Mitigation potential of soil carbon management overestimated by neglecting N2O emissions.8,219–22310.1038/s41558-018-0087-zSearch in Google Scholar
Lüttger, A.B., Feike, T., 2018. Development of heat and drought related extreme weather events and their effect on winter wheat yields in Germany. Theoretical and Applied Climatology 132, 15–29.LüttgerA.B.FeikeT2018.Development of heat and drought related extreme weather events and their effect on winter wheat yields in Germany.132,15–2910.1007/s00704-017-2076-ySearch in Google Scholar
MacLeod, M., Moran, D., Eory, V., Rees, R.M., Barnes, A., Topp, C.F., Ball, B., Hoad, S., Wall, E., McVittie, A., Pajot, G., Matthews, R., Smith, P., Moxey, A., 2010. Developing greenhouse gas marginal abatement cost curves for agricultural emissions from crops and soils in the UK. Agricultural Systems 103, 198–209.MacLeodMMoranDEoryVReesR.M.BarnesAToppC.F.BallBHoadSWallEMcVittieAPajotG.MatthewsRSmithPMoxeyA2010.Developing greenhouse gas marginal abatement cost curves for agricultural emissions from crops and soils in the UK.103,198–20910.1016/j.agsy.2010.01.002Search in Google Scholar
Malhi, S.S., Grant, C.A., Johnston, A.M., Gill, K.S., 2001. Nitrogen fertilization management for no-till cereal production in the Canadian Great Plains: a review. Soil and Tillage Research 60, 101–122.MalhiS.S.GrantC.A.JohnstonA.M.GillK.S.2001.Nitrogen fertilization management for no-till cereal production in the Canadian Great Plains: a review.60,101–12210.1016/S0167-1987(01)00176-3Search in Google Scholar
Malhi, S.S., Nyborg, M., Goddard, T., Puurveen, D., 2011. Long-term tillage, straw management and N fertilization effects on quantity and quality of organic C and N in a Black Chernozem soil. Springer; Springer Netherlands. Nutrient Cycling in Agroecosystems 90, 227–241.MalhiS.S.NyborgMGoddardTPuurveenD2011.Long-term tillage, straw management and N fertilization effects on quantity and quality of organic C and N in a Black Chernozem soil.Springer;Springer Netherlands.90,227–24110.1007/s10705-011-9424-6Search in Google Scholar
Manning, P., Loos, J., Barnes, A.D., Batáry, P., Bianchi, F.J., Buchmann, N., Deyn, G.B. de, Ebeling, A., Eisenhauer, N., Fischer, M., Fründ, J., Grass, I., Isselstein, J., Jochum, M., Klein, A.M., Klingenberg, E.O., Landis, D.A., Lepš, J., Lindborg, R., Meyer, S.T., Temperton, V.M., Westphal, C., Tscharntke, T., 2019. Transferring biodiversityecosystem function research to the management of ‘real-world’ ecosystems. In: Advances in Ecological Research, pp. 323–356.ManningPLoosJBarnesA.D.BatáryPBianchiF.J.BuchmannNDeynG.B. deEbelingAEisenhauerNFischerMFründJGrassIIsselsteinJJochumMKleinA.M.KlingenbergE.O.LandisD.A.LepšJ.LindborgRMeyerS.T.TempertonV.M.WestphalCTscharntkeT2019.Transferring biodiversityecosystem function research to the management of ‘real-world’ ecosystems. In:, pp.323–356.10.1016/bs.aecr.2019.06.009Search in Google Scholar
McSherry, M.E., Ritchie, M.E., 2013. Effects of grazing on grassland soil carbon: a global review. Global Change Biology 19, 1347–1357.McSherryM.E.RitchieM.E.2013.Effects of grazing on grassland soil carbon: a global review.19,1347–135710.1111/gcb.1214423504715Search in Google Scholar
Meehan, T.D., Werling, B.P., Landis, D.A., Gratton, C., 2011. Agricultural landscape simplification and insecticide use in the Midwestern United States. Proceedings of the National Academy of Sciences of the United States of America 108, 11500–11505.MeehanT.D.WerlingB.P.LandisD.A.GrattonC2011.Agricultural landscape simplification and insecticide use in the Midwestern United States.108,11500–1150510.1073/pnas.1100751108313626021746934Search in Google Scholar
Metzing, D., Hofbauer, N., Ludwig, G., Matzke-Hajek, G., 2018. Rote Liste gefährdeter Tiere, Pflanzen und Pilze Deutschlands. Band 7: Pflanzen. Deutschland. Bundesamt für Naturschutz (Ed.). Naturschutz und bio-logische Vielfalt, Bonn-Bad Godesberg. 784, IV Seiten.MetzingDHofbauerNLudwigGMatzke-HajekG2018.Rote Liste gefährdeter Tiere, Pflanzen und Pilze Deutschlands.Band 7: Pflanzen. Deutschland. Bundesamt für Naturschutz (Ed.)., Bonn-Bad Godesberg. 784, IV Seiten.Search in Google Scholar
Meyer, S., Wesche, K., Krause, B., Brütting, C., Hensen, I., Leuschner, C., 2014. Diversitätsverluste und floristischer Wandel im Ackerland seit 1950. Natur und Landschaft 89, 392–398.MeyerSWescheKKrauseBBrüttingCHensenILeuschnerC2014.Diversitätsverluste und floristischer Wandel im Ackerland seit 1950.89,392–398Search in Google Scholar
Minasny, B., McBratney, A.B., 2018. Limited effect of organic matter on soil available water capacity. European Journal of Soil Science 69, 39–47.MinasnyBMcBratneyA.B.2018.Limited effect of organic matter on soil available water capacity.69,39–4710.1111/ejss.12475Search in Google Scholar
Möckel, S., Gawel, E., Kästner, M., Knillmann, S., Liess, M., Bretschneider, W., 2015. Eine Abgabe auf Pflanzen-schutzmittel für Deutschland. Natur und Recht 37, 669– 677.MöckelSGawelEKästnerMKnillmannSLiessMBretschneiderW2015.Eine Abgabe auf Pflanzen-schutzmittel für Deutschland.37,669–677.10.1007/s10357-015-2902-xSearch in Google Scholar
Möller, K., 2018. Soil fertility status and nutrient input– output flows of specialised organic cropping systems: a review. Nutrient Cycling in Agroecosystems 112, 147– 164.MöllerK2018.Soil fertility status and nutrient input–output flows of specialised organic cropping systems: a review.112,147–164.10.1007/s10705-018-9946-2Search in Google Scholar
Möller, K., 2020. Einfluss der organischen Düngung auf die Stickstoff-, Phosphor und Klimagasemissionen. In: Box-berger, J., Mayer, Möller, K., Pöllinger (Eds.), Praxishand-buch Organische Düngung. Effizient und nachhaltig. Themenbibliothek Pflanzenproduktion. Erling Verlag, Clenze, pp. 401–480.MöllerK2020.Einfluss der organischen Düngung auf die Stickstoff-, Phosphor und Klimagasemissionen. In:Box-bergerJMayerMöllerKPöllinger(Eds.),Praxishand-buch Organische Düngung..Erling Verlag,Clenze, pp.401–480.Search in Google Scholar
Morris, N.L., Miller, P., Orson, J.H., Froud-Williams, R.J., 2010. The adoption of non-inversion tillage systems in the United Kingdom and the agronomic impact on soil, crops and the environment—A review. Soil and Tillage Research 108, 1–15.MorrisN.L.MillerPOrsonJ.H.Froud-WilliamsR.J.2010.The adoption of non-inversion tillage systems in the United Kingdom and the agronomic impact on soil, crops and the environment—A review.108,1–1510.1016/j.still.2010.03.004Search in Google Scholar
Morris, T.F., Murrell, T.S., Beegle, D.B., Camberato, J.J., Ferguson, R.B., Grove, J., Ketterings, Q., Kyveryga, P.M., Laboski, C.A., McGrath, J.M., Meisinger, J.J., Melkonian, J., Moebius-Clune, B.N., Nafziger, E.D., Osmond, D., Sawyer, J.E., Scharf, P.C., Smith, W., Spargo, J.T., van Es, H.M., Yang, H., 2018. Strengths and Limitations of Nitrogen Rate Recommendations for Corn and Opportunities for Improvement. Agronomy Journal 110, 1–37.MorrisT.F.MurrellT.S.BeegleD.B.CamberatoJ.J.FergusonR.B.GroveJKetteringsQKyverygaP.M.LaboskiC.A.McGrathJ.M.MeisingerJ.J.MelkonianJMoebius-CluneB.N.NafzigerE.D.OsmondDSawyerJ.E.ScharfP.C.SmithWSpargoJ.T.van EsH.M.YangH2018.Strengths and Limitations of Nitrogen Rate Recommendations for Corn and Opportunities for Improvement.110,1–3710.2134/agronj2017.02.0112Search in Google Scholar
Nationale Akademie der Wissenschaften Leopoldina, 2012. Bioenergie: Möglichkeiten und Grenzen. Kurzfassung und Empfehlungen. Deutsche Akademie der Naturforscher Leopoldina, Halle (Saale). 50 S.Nationale Akademie der Wissenschaften Leopoldina,2012.Bioenergie: Möglichkeiten und Grenzen. Kurzfassung und Empfehlungen., Halle (Saale). 50 S.Search in Google Scholar
Nesme, T., Metson, G.S., Bennett, E.M., 2018. Global phosphorus flows through agricultural trade. Global Environmental Change 50, 133–141.NesmeTMetsonG.S.BennettE.M.2018.Global phosphorus flows through agricultural trade.50,133–14110.1016/j.gloenvcha.2018.04.004Search in Google Scholar
Neugschwandtner, R.W., Száková, J., Pachtrog, V., Tlustoš, P., Kulhánek, M., Černý, J., Kaul, H.-P., Wagentristl, H., Moitzi, G., Euteneuer, P., 2022. Exchangeable and plant-available macronutrients in a long-term tillage and crop rotation experiment after 15 years. Plants 11. 565.NeugschwandtnerR.W.SzákováJ.PachtrogVTlustošP.KulhánekMČernýJ.KaulH.-P.WagentristlHMoitziGEuteneuerP2022.Exchangeable and plant-available macronutrients in a long-term tillage and crop rotation experiment after 15 years.11.565.10.3390/plants11040565887825235214898Search in Google Scholar
Nicholson, C.C., Emery, B.F., Niles, M.T., 2021. Global relationships between crop diversity and nutritional stability. Nature Communications 12, 5310.NicholsonC.C.EmeryB.F.NilesM.T.2021.Global relationships between crop diversity and nutritional stability.12,5310.10.1038/s41467-021-25615-2842380134493729Search in Google Scholar
Norton, M., van Sprundel, G.-J., Turvey, C.G., Meuwissen, M.P., 2016. Applying weather index insurance to agricultural pest and disease risks. International Journal of Pest Management 62, 195–204.NortonMvan SprundelG.-J.TurveyC.G.MeuwissenM.P.2016.Applying weather index insurance to agricultural pest and disease risks.62,195–20410.1080/09670874.2016.1184773Search in Google Scholar
Oenema, O., Velthof, G.L., Yamulki, S., Jarvis, S.C., 1997. Nitrous oxide emissions from grazed grassland. Soil Use and Management 13, 288–295.OenemaOVelthofG.L.YamulkiSJarvisS.C.1997.Nitrous oxide emissions from grazed grassland.13,288–29510.1111/j.1475-2743.1997.tb00600.xSearch in Google Scholar
Olesen, J.E., Jørgensen, L.N., Petersen, J., Mortensen, J.V., 2003. Effects of rate and timing of nitrogen fertilizer on disease control by fungicides in winter wheat. 1. Grain yield and foliar disease control. The Journal of Agricultural Science 140, 1–13.OlesenJ.E.JørgensenL.N.PetersenJMortensenJ.V.2003.Effects of rate and timing of nitrogen fertilizer on disease control by fungicides in winter wheat. 1. Grain yield and foliar disease control.140,1–1310.1017/S0021859602002885Search in Google Scholar
Ölschläger, C., Zeller, F.J., Treutter, D., 2009. Rutin and proanthocyanidin contents in buckwheat grains: combined biosynthesis in interspecific hybrids between Fagopyrum esculentum Moench x F. homotropicum Ohnishi and their progeny. The European Journal of Plant Science and Biotechnology 4, 98–109.ÖlschlägerCZellerF.J.TreutterD2009.Rutin and proanthocyanidin contents in buckwheat grains: combined biosynthesis in interspecific hybrids between Fagopyrum esculentum Moench x F. homotropicum Ohnishi and their progeny.4,98–109Search in Google Scholar
Omara, P., Aula, L., Oyebiyi, F., Raun, W.R., 2019. World Cereal Nitrogen Use Efficiency Trends: Review and Current Knowledge. Agrosystems, Geosciences & Environment 2, 1–8.OmaraPAulaLOyebiyiFRaunW.R.2019.World Cereal Nitrogen Use Efficiency Trends: Review and Current Knowledge.2,1–810.2134/age2018.10.0045Search in Google Scholar
Oomes, M.J.M., 1992. Yield and species density of grasslands during restoration management. Journal of Vegetation Science 3, 271–274.OomesM.J.M.,1992.Yield and species density of grasslands during restoration management.3,271–27410.2307/3235690Search in Google Scholar
Oppermann, R., Buhk, C., Pfister, S., 2019. Handlungs-perspektiven für eine insektenfreundliche Landnutzung. W.Kohlhammer GmbH. Natur und Landschaft 94, 279– 288.OppermannRBuhkCPfisterS2019.Handlungs-perspektiven für eine insektenfreundliche Landnutzung.94,279–288.Search in Google Scholar
Owen, J.J., Parton, W.J., Silver, W.L., 2015. Long-term impacts of manure amendments on carbon and greenhouse gas dynamics of rangelands. Global Change Biology 21, 4533–4547.OwenJ.J.PartonW.J.SilverW.L.2015.Long-term impacts of manure amendments on carbon and greenhouse gas dynamics of rangelands.21,4533–454710.1111/gcb.1304426183573Search in Google Scholar
Palma, R.M., Rímolo, M., Saubidet, M.I., Conti, M.E., 1997. Influence of tillage system on denitrification in maizecropped soils. Springer; Springer-Verlag. Biology and Fertility of Soils 25, 142–146.PalmaR.M.RímoloMSaubidetM.I.ContiM.E.1997.Influence of tillage system on denitrification in maizecropped soils.Springer;Springer-Verlag.25,142–14610.1007/s003740050294Search in Google Scholar
Palmer, R.G., Perez, P.T., Ortiz-Perez, E., Maalouf, F., Suso, M.J., 2009. The role of crop-pollinator relationships in breeding for pollinator-friendly legumes: from a breeding perspective. Euphytica 170, 35–52.PalmerR.G.PerezP.T.Ortiz-PerezEMaaloufFSusoM.J.2009.The role of crop-pollinator relationships in breeding for pollinator-friendly legumes: from a breeding perspective.170,35–5210.1007/s10681-009-9953-0Search in Google Scholar
Papoutsoglou, E.A., Faria, D., Arend, D., Arnaud, E., Athanasiadis, I.N., Chaves, I., Coppens, F., Cornut, G., Costa, B.V., Ćwiek-Kupczyńska, H., Droesbeke, B., Finkers, R., Gruden, K., Junker, A., King, G.J., Krajewski, P., Lange, M., Laporte, M.-A., Michotey, C., Oppermann, M., Ostler, R., Poorter, H., Rami Rez-Gonzalez, R., Ramšak, Ž., Reif, J.C., Rocca-Serra, P., Sansone, S.-A., Scholz, U., Tardieu, F., Uauy, C., Usadel, B., Visser, R.G.F., Weise, S., Kersey, P.J., Miguel, C.M., Adam-Blondon, A.-F., Pommier, C., 2020. Enabling reusability of plant phenomic datasets with MIAPPE 1.1. New Phytologist 227, 260–273.PapoutsoglouE.A.FariaDArendDArnaudEAthanasiadisI.N.ChavesICoppensFCornutGCostaB.V.Ćwiek-KupczyńskaHDroesbekeBFinkersRGrudenKJunkerAKingG.J.KrajewskiPLangeMLaporteM.-A.MichoteyCOppermannMOstlerRPoorterHRami Rez-GonzalezRRamšakŽ.ReifJ.C.Rocca-SerraPSansoneS.-A.ScholzUTardieuFUauyCUsadelBVisserR.G.F.WeiseSKerseyP.J.MiguelC.M.Adam-BlondonA.-F.PommierC.,2020.Enabling reusability of plant phenomic datasets with MIAPPE 1.1.227,260–27310.1111/nph.16544731779332171029Search in Google Scholar
Pembleton, K.G., Hills, J.L., Freeman, M.J., McLaren, D.K., French, M., Rawnsley, R.P., 2016. More milk from forage: Milk production, blood metabolites, and forage intake of dairy cows grazing pasture mixtures and spatially adjacent monocultures. Journal of Dairy Science 99, 3512–3528.PembletonK.G.HillsJ.L.FreemanM.J.McLarenD.K.FrenchMRawnsleyR.P.2016.More milk from forage: Milk production, blood metabolites, and forage intake of dairy cows grazing pasture mixtures and spatially adjacent monocultures.99,3512–352810.3168/jds.2015-1054226923052Search in Google Scholar
Peters, W., Schultze, C., Köppel, J., 2008. Naturschutzfachliche Anforderungen an den Energiepflanzenanbau & Naturschutzfachliche Bewertung von Anbaufrüchten und-verfahren. In: Vogt, R., Gärtner, S., Reinhardt, G., Köppen, S. (Eds.), Optimierungen für einen nachhaltigen Ausbau der Biogaserzeugung und -nutzung in Deutschland, pp. 235–304.PetersWSchultzeCKöppelJ2008.Naturschutzfachliche Anforderungen an den Energiepflanzenanbau & Naturschutzfachliche Bewertung von Anbaufrüchten und-verfahren. In:VogtRGärtnerSReinhardtGKöppenS.(Eds.),, pp.235–304.Search in Google Scholar
Petersen, J., 2018. Konsequenzen des Glyphosateinsatzes im Ackerbau für Anbausysteme, Umwelt und Gesellschaft. TH Bingen, Bingen. 38 S.PetersenJ2018.Konsequenzen des Glyphosateinsatzes im Ackerbau für Anbausysteme, Umwelt und Gesellschaft.. 38 S.Search in Google Scholar
Pittelkow, C.M., Liang, X., Linquist, B.A., van Groenigen, K.J., Lee, J., Lundy, M.E., van Gestel, N., Six, J., Venterea, R.T., van Kessel, C., 2015. Productivity limits and potentials of the principles of conservation agriculture. Nature 517, 365–368.PittelkowC.M.LiangXLinquistB.A.van GroenigenK.J.LeeJLundyM.E.van GestelNSixJVentereaR.T.van KesselC2015.Productivity limits and potentials of the principles of conservation agriculture.517,365–36810.1038/nature1380925337882Search in Google Scholar
Poeplau, C., 2021. Grassland soil organic carbon stocks along management intensity and warming gradients. Grass and Forage Science 76, 186–195.PoeplauC2021.Grassland soil organic carbon stocks along management intensity and warming gradients.76,186–19510.1111/gfs.12537Search in Google Scholar
Poeplau, C., Zopf, D., Greiner, B., Geerts, R., Korvaar, H., Thumm, U., Don, A., Heidkamp, A., Flessa, H., 2018. Why does mineral fertilization increase soil carbon stocks in temperate grasslands? Agriculture, Ecosystems & Environment 265, 144–155.PoeplauCZopfDGreinerBGeertsRKorvaarHThummUDonAHeidkampAFlessaH2018.Why does mineral fertilization increase soil carbon stocks in temperate grasslands?265,144–15510.1016/j.agee.2018.06.003Search in Google Scholar
Poetz, K., Haas, R., Balzarova, M., 2012. Emerging strategic corporate social responsibility partnership initiatives in agribusiness: the case of the sustainable agriculture initiative. Journal on Chain and Network Science 12, 151–165.PoetzKHaasRBalzarovaM2012.Emerging strategic corporate social responsibility partnership initiatives in agribusiness: the case of the sustainable agriculture initiative.12,151–16510.3920/JCNS2012.x010Search in Google Scholar
Ponti, T. de, Rijk, B., van Ittersum, M. K., 2012. The crop yield gap between organic and conventional agriculture. Agricultural Systems 108, 1–9.PontiT. deRijkBvan IttersumM. K.2012.The crop yield gap between organic and conventional agriculture.108,1–910.1016/j.agsy.2011.12.004Search in Google Scholar
Power, A.G., 2010. Ecosystem services and agriculture: tradeoffs and synergies. Philosophical transactions of the Royal Society of London. Series B, Biological sciences 365, 2959–2971.PowerA.G.2010.Ecosystem services and agriculture: tradeoffs and synergies.365,2959–297110.1098/rstb.2010.0143293512120713396Search in Google Scholar
Powney, G.D., Carvell, C., Edwards, M., Morris, R.K.A., Roy, H.E., Woodcock, B.A., Isaac, N.J.B., 2019. Widespread losses of pollinating insects in Britain. Nature Communications 10, 1018.PowneyG.D.CarvellCEdwardsMMorrisR.K.A.RoyH.E.WoodcockB.A.IsaacN.J.B.,2019.Widespread losses of pollinating insects in Britain.10,1018.10.1038/s41467-019-08974-9643571730914632Search in Google Scholar
Prager, K., Hagemann, N., Schuler, J., Heyn, N., 2011. Incentives and enforcement: The institutional design and policy mix for soil conservation in Brandenburg (Germany). Land Degradation & Development 22, 111–123.PragerKHagemannNSchulerJHeynN2011.Incentives and enforcement: The institutional design and policy mix for soil conservation in Brandenburg (Germany).22,111–12310.1002/ldr.1038Search in Google Scholar
Räbiger, T., Andres, M., Hegewald, H., Kesenheimer, K., Köbke, S., Quinones, T.S., Böttcher, U., Kage, H., 2020. Indirect nitrous oxide emissions from oilseed rape cropping systems by NH3 volatilization and nitrate leaching as affected by nitrogen source, N rate and site conditions. European Journal of Agronomy 116, 126039.RäbigerTAndresMHegewaldHKesenheimerKKöbkeSQuinonesT.S.BöttcherUKageH2020.Indirect nitrous oxide emissions from oilseed rape cropping systems by NH3 volatilization and nitrate leaching as affected by nitrogen source, N rate and site conditions.116,126039.10.1016/j.eja.2020.126039Search in Google Scholar
Rajmis, S., Karpinski, I., Kehlenbeck, H., 2021. Ökonomische Kennzahlen und betriebswirtschaftliche Bewertung von teilflächenspezifischen Pflanzenschutzmittelapplikationen mit Direkteinspeisung und Assistenzsystem. Journal für Kulturpflanzen 73, 159–170.RajmisSKarpinskiIKehlenbeckH2021.Ökonomische Kennzahlen und betriebswirtschaftliche Bewertung von teilflächenspezifischen Pflanzenschutzmittelapplikationen mit Direkteinspeisung und Assistenzsystem.73,159–170Search in Google Scholar
Ratjen, A.M., Reinsdorf, E., Kage, H., 2016. Sechs Jahre ISIP Düngeempfehlungsmodell für Winterweizen. Mitt. Ges. Pflanzenbauwiss. 28, 96–97.RatjenA.M.ReinsdorfEKageH2016.Sechs Jahre ISIP Düngeempfehlungsmodell für Winterweizen.28,96–97Search in Google Scholar
Ravetto Enri, S., Probo, M., Farruggia, A., Lanore, L., Blanchetete, A., Dumont, B., 2017. A biodiversity-friendly rotational grazing system enhancing flower-visiting insect assemblages while maintaining animal and grassland productivity. Agriculture, Ecosystems & Environment 241, 1–10.Ravetto EnriSProboMFarruggiaALanoreLBlancheteteADumontB2017.A biodiversity-friendly rotational grazing system enhancing flower-visiting insect assemblages while maintaining animal and grassland productivity.241,1–1010.1016/j.agee.2017.02.030Search in Google Scholar
Reinsch, T., Malisch, C., Lorenz, H., Böldt, M., Peters, T., Poyda, A., Taube, F., 2018. THG-Emissionen im Futterbau und in der Milchproduktion. In: Leistungen von Gras und Klee-Gras auf Acker und Grünland. Tagungsband ; Vorträge und Posterbeiträge der 62. Jahrestagung der AGGF in Kiel 30. August - 01. September 2018. Institut für Pflanzenbau und Pflanzenzüchtung, Kiel.ReinschTMalischCLorenzHBöldtMPetersTPoydaATaubeF2018.THG-Emissionen im Futterbau und in der Milchproduktion. In:. Tagungsband ; Vorträge und Posterbeiträge der 62. Jahrestagung der AGGF in Kiel 30. August - 01. September 2018. Institut für Pflanzenbau und Pflanzenzüchtung, Kiel.Search in Google Scholar
Reinsdorf, E., Baumgärtel, G., Rathjen, A.M., Kage, H., 2016. Online optimieren. DLG Mitteilungen, 20–22.ReinsdorfEBaumgärtelGRathjenA.M.KageH2016.Online optimieren.,20–22.Search in Google Scholar
Richner, W., Sinaj, S., 2017. Grundlagen für die Düngung landwirtschaftlicher Kulturen in der Schweiz (GRUD 2017). Spezialpublikation. Agrarforschung Schweiz 8, 276 S.RichnerWSinajS2017.Grundlagen für die Düngung landwirtschaftlicher Kulturen in der Schweiz (GRUD 2017).8, 276 S.Search in Google Scholar
Riesch, F., Komainda, M., Horn, J., Isselstein, J., 2020. Grüne Aussichten: mehr Weidegang für Milchkühe durch virtuelle Zäune? In: Bayerische Landesanstalt für Landwirtschaft (Ed.), Chancen der Wertschöpfung, Probleme der Wertschätzung im Grünland.RieschFKomaindaMHornJIsselsteinJ2020.Grüne Aussichten: mehr Weidegang für Milchkühe durch virtuelle Zäune?In:Bayerische Landesanstalt für Landwirtschaft(Ed.),.Search in Google Scholar
Riggers, C., Poeplau, C., Don, A., Frühauf, C., Dechow, R., 2021. How much carbon input is required to preserve or increase projected soil organic carbon stocks in German croplands under climate change? Plant and Soil 460, 417–433.RiggersCPoeplauCDonAFrühaufCDechowR2021.How much carbon input is required to preserve or increase projected soil organic carbon stocks in German croplands under climate change?460,417–43310.1007/s11104-020-04806-8Search in Google Scholar
Rockström, J., Steffen, W., Noone, K., Persson, A., Chapin, F.S., Lambin, E.F., Lenton, T.M., Scheffer, M., Folke, C., Schellnhuber, H.J., Nykvist, B., Wit, C.A. de, Hughes, T., van der Leeuw, S., Rodhe, H., Sörlin, S., Snyder, P.K., Costanza, R., Svedin, U., Falkenmark, M., Karlberg, L., Corell, R.W., Fabry, V.J., Hansen, J., Walker, B., Liverman, D., Richardson, K., Crutzen, P., Foley, J.A., 2009. A safe operating space for humanity. Nature Publishing Group. Nature 461, 472–475.RockströmJ.SteffenWNooneKPerssonAChapinF.S.LambinE.F.LentonT.M.SchefferMFolkeCSchellnhuberH.J.NykvistBWitC.A. deHughesTvan der LeeuwSRodheHSörlinSSnyderP.K.CostanzaRSvedinUFalkenmarkMKarlbergLCorellR.W.FabryV.J.HansenJWalkerBLivermanDRichardsonKCrutzenPFoleyJ.A.2009..Nature Publishing Group.461,472–47510.1038/461472aSearch in Google Scholar
Rose, L., Leuschner, C., 2012. The diversity–productivity relationship in a permanent temperate grassland: negative diversity effect, dominant influence of management regime. Plant Ecology & Diversity 5, 265–274.RoseLLeuschnerC2012.The diversity–productivity relationship in a permanent temperate grassland: negative diversity effect, dominant influence of management regime.5,265–27410.1080/17550874.2012.723763Search in Google Scholar
Roy, J., 2001. How does biodiversity control primary productivity? In: Saugier, B., Mooney, H.A., Roy, J. (Eds.), Terrestrial global productivity. Physiological ecology series. Academic Press, San Diego, Calif, pp. 169–186.RoyJ2001.How does biodiversity control primary productivity?In:SaugierBMooneyH.A.RoyJ.(Eds.),.Academic Press,San Diego, Calif, pp.169–186.10.1016/B978-012505290-0/50009-0Search in Google Scholar
Ruser, R., Fuß, R., Andres, M., Hegewald, H., Kesenheimer, K., Köbke, S., Räbiger, T., Quinones, T.S., Augustin, J., Christen, O., Dittert, K., Kage, H., Lewandowski, 1., Prochnow, A., Stichnothe, H., Flessa, H., 2017. Nitrous oxide emissions from winter oilseed rape cultivation. Agriculture, Ecosystems & Environment 249, 57–69.RuserRFußR.AndresMHegewaldHKesenheimerKKöbkeSRäbigerTQuinonesT.S.AugustinJChristenODittertKKageHLewandowskiL.ProchnowAStichnotheHFlessaH2017.Nitrous oxide emissions from winter oilseed rape cultivation.249,57–6910.1016/j.agee.2017.07.039Search in Google Scholar
Ruysschaert, G., Nelissen, V., Postma, R., Bruun, E., O’Toole, A., Hammond, J., Rödger, J.-M., Hylander, L., Kihlberg, T., Zwart, K., Hauggaard-Nielsen, H., Shackley, S., 2016. In: Shackley, S., Ruysschaert, G., Zwart, K., Glaser, B. (Eds.), Biochar in European soils and agriculture. Science and practice. Routledge Taylor & Francis Group Earthscan from Routledge, London, New York.RuysschaertGNelissenVPostmaRBruunEO’TooleA.HammondJRödgerJ.-M.HylanderLKihlbergTZwartKHauggaard-NielsenHShackleyS2016. In:ShackleySRuysschaertGZwartKGlaserB. (Eds.),Biochar in European soils and agriculture..Routledge Taylor & Francis Group Earthscan from Routledge,London, New York.Search in Google Scholar
Ryan, S.F., Adamson, N.L., Aktipis, A., Andersen, L.K., Austin, R., Barnes, L., Beasley, M.R., Bedell, K.D., Briggs, 5., Chapman, B., Cooper, C.B., Corn, J.O., Creamer, N.G., Delborne, J.A., Domenico, P., Driscoll, E., Goodwin, J., Hjarding, A., Hulbert, J.M., Isard, S., Just, M.G., Kar Gupta, K., López-Uribe, M.M., O’Sullivan, J., Landis, E.A., Madden, A.A., McKenney, E.A., Nichols, L.M., Reading, B.J., Russell, S., Sengupta, N., Shapiro, L.R., Shell, L.K., Sheard, J.K., Shoemaker, D.D., Sorger, D.M., Starling, C., Thakur, S., Vatsavai, R.R., Weinstein, M., Winfrey, P., Dunn, R.R., 2018. The role of citizen science in addressing grand challenges in food and agriculture research. Proceedings of the Royal Society B: Biological Sciences 285, 20181977.RyanS.F.AdamsonN.L.AktipisAAndersenL.K.AustinRBarnesLBeasleyM.R.BedellK.D.BriggsS.ChapmanBCooperC.B.CornJ.O.CreamerN.G.DelborneJ.A.DomenicoPDriscollEGoodwinJHjardingAHulbertJ.M.IsardSJustM.G.Kar GuptaKLópez-UribeM.M.O’SullivanJLandisE.A.MaddenA.A.McKenneyE.A.NicholsL.M.ReadingB.J.RussellSSenguptaNShapiroL.R.ShellL.K.SheardJ.K.ShoemakerD.D.SorgerD.M.StarlingCThakurSVatsavaiR.R.WeinsteinMWinfreyPDunnR.R.2018.The role of citizen science in addressing grand challenges in food and agriculture research.285,20181977.10.1098/rspb.2018.1977625336130464064Search in Google Scholar
Sainju, U.M., Senwo, Z.N., Nyakatawa, E.Z., Tazisong, I.A., Reddy, K.C., 2008. Tillage, cropping systems, and nitrogen fertilizer source effects on soil carbon sequestration and fractions. Journal of Environmental Quality 37, 880–888.SainjuU.M.SenwoZ.N.NyakatawaE.Z.TazisongI.A.ReddyK.C.2008.Tillage, cropping systems, and nitrogen fertilizer source effects on soil carbon sequestration and fractions.37,880–88810.2134/jeq2007.024118453410Search in Google Scholar
Salo, T., Turtola, E., 2006. Nitrogen balance as an indicator of nitrogen leaching in Finland. Agriculture, Ecosystems & Environment 113, 98–107.SaloTTurtolaE2006.Nitrogen balance as an indicator of nitrogen leaching in Finland.113,98–10710.1016/j.agee.2005.09.002Search in Google Scholar
Saltzmann, J., Kehlenbeck, H., 2018. Wirtschaftlichkeitsbewertung von Pflanzenschutzstrategien in E- und A-Weizen anhand eines Feldversuches in Brandenburg mit sechsgliedriger Fruchtfolge in den Jahren 2004 bis 2016. Gesunde Pflanzen 70, 129–138.SaltzmannJKehlenbeckH2018.Wirtschaftlichkeitsbewertung von Pflanzenschutzstrategien in E- und A-Weizen anhand eines Feldversuches in Brandenburg mit sechsgliedriger Fruchtfolge in den Jahren 2004 bis 2016.70,129–13810.1007/s10343-018-0425-0Search in Google Scholar
Sassenrath, G.F., Schneider, J.M., Gaj, R., Grzebisz, W., Halloran, J.M., 2013. Nitrogen balance as an indicator of environmental impact. Renewable Agriculture and Food Systems 28, 276–289.SassenrathG.F.SchneiderJ.M.GajRGrzebiszWHalloranJ.M.2013.Nitrogen balance as an indicator of environmental impact.28,276–28910.1017/S1742170512000166Search in Google Scholar
Schepers, W., 2020. Herausforderungen beim Nährstoff-management in Gebieten mit hohem Tierbesatz am Beispiel Niedersachsen. In: Boxberger, J., Mayer, Möller, K., Pöllinger (Eds.), Praxishandbuch Organische Düngung. Effizient und nachhaltig. Themenbibliothek Pflanzen-produktion. Erling Verlag, Clenze, pp. 551–566.SchepersW2020.Herausforderungen beim Nährstoff-management in Gebieten mit hohem Tierbesatz am Bei-spiel Niedersachsen. In:BoxbergerJMayerMöllerKPöllinger(Eds.),Praxishandbuch Organische Düngung..Erling Verlag,Clenze, pp.551–566.Search in Google Scholar
Schmidt, H.-P., Anca-Couce, A., Hagemann, N., Werner, C., Gerten, D., Lucht, W., Kammann, C., 2019. Pyrogenic carbon capture and storage. GCB Bioenergy 11, 573–591.SchmidtH.-P.Anca-CouceAHagemannNWernerCGertenDLuchtWKammannC2019.Pyrogenic carbon capture and storage.11,573–59110.1111/gcbb.12553Search in Google Scholar
Schneider, F., Don, A., 2019. Root-restricting layers in German agricultural soils. Part I: extent and cause. Plant and Soil 442, 433–451.SchneiderFDonA2019.Root-restricting layers in German agricultural soils. Part I: extent and cause.442,433–45110.1007/s11104-019-04185-9Search in Google Scholar
Schneider, F., Don, A., Hennings, I., Schmittmann, O., Seidel, S.J., 2017. The effect of deep tillage on crop yield – What do we really know? Soil and Tillage Research 174, 193–204.SchneiderFDonAHenningsISchmittmannOSeidelS.J.2017.The effect of deep tillage on crop yield –What do we really know?174,193–20410.1016/j.still.2017.07.005Search in Google Scholar
Schneider, M.K., Homburger, H., Lüscher, A., 2011. Survey of the biodiversity-productivity relationship in Swiss summer pastures. Grassland Science in Europe 16, 487– 489.SchneiderM.K.HomburgerHLüscherA2011.Survey of the biodiversity-productivity relationship in Swiss summer pastures.16,487–489.Search in Google Scholar
Schwarz, J., Klocke, B., Wagner, C., Krengel, S., 2018. Untersuchungen zum notwendigen Maß bei der Anwendung von Pflanzenschutzmitteln in Winterweizen in den Jahren 2004 bis 2016. Gesunde Pflanzen 70, 119–127.SchwarzJKlockeBWagnerCKrengelS2018.Untersuchungen zum notwendigen Maß bei der Anwendung von Pflanzenschutzmitteln in Winterweizen in den Jahren 2004 bis 2016.70,119–12710.1007/s10343-018-0422-3Search in Google Scholar
Seibold, S., Gossner, M.M., Simons, N.K., Blüthgen, N., Müller, J., Ambarli, D., Ammer, C., Bauhus, J., Fischer, M., Habel, J.C., Linsenmair, K.E., Nauss, T., Penone, C., Prati, D., Schall, P., Schulze, E.-D., Vogt, J., Wöllauer, S., Weisser, W.W., 2019. Arthropod decline in grasslands and forests is associated with landscape-level drivers. Nature 574, 671–674.SeiboldSGossnerM.M.SimonsN.K.BlüthgenNMüllerJAmbarliDAmmerCBauhusJFischerMHabelJ.C.LinsenmairK.E.NaussTPenoneCPratiDSchallPSchulzeE.-D.VogtJWöllauerSWeisserW.W.2019.Arthropod decline in grasslands and forests is associated with landscape-level drivers.574,671–67410.1038/s41586-019-1684-331666721Search in Google Scholar
Seidel, P., 2016. Auswirkungen von Extremwetterereignissenauf Schaderreger, ihre Schadwirkung und Pflanzenschutzmaßnahmen - erste Hinweise. Julius Kühn-Institut, Bundesforschungsinstitut für Kulturpflanzen. Journal für Kulturpflanzen 68, 253–269.SeidelP2016.Auswirkungen von Extremwetterereignissenauf Schaderreger, ihre Schadwirkung und Pflanzenschutzmaßnahmen - erste Hinweise.68,253–269Search in Google Scholar
Seiter, C., Flaig, H., Hartung, K., Ott, J., Breuer, J., Möller, K., 2017. Pflanzenbauliche und bodenökologische Auswirkungen von Pflug-, Mulch- und Direktsaat - „Systemvergleich Bodenbearbeitung“. Abschlussbericht. Landwirtschaftliches Technologiezentrum Augustenberg (LTZ). (Ed.). https://ltz.landwirtschaft-bw.de/pb/,Lde/ Startseite/Arbeitsfelder/Bodenbearbeitung?QUERYST RING=Abschlussbericht+2017.SeiterCFlaigHHartungKOttJBreuerJMöllerK.,2017.Pflanzenbauliche und bodenökologische Auswirkungen von Pflug-, Mulch- und Direktsaat - „System-vergleich Bodenbearbeitung“.. (Ed.).https://ltz.landwirtschaft-bw.de/pb/,Lde/Startseite/Arbeitsfelder/Bodenbearbeitung?QUERYSTRING=Abschlussbericht+2017.Search in Google Scholar
Sela, S., van Es, H.M., Moebius-Clune, B.N., Marjerison, R., Moebius-Clune, D., Schindelbeck, R., Severson, K., Young, E., 2017. Dynamic model improves agronomic and environmental outcomes for maize nitrogen management over static approach. Journal of Environmental Quality 46, 311–319.SelaSvan EsH.M.Moebius-CluneB.N.MarjerisonR.Moebius-CluneDSchindelbeckRSeversonKYoungE2017.Dynamic model improves agronomic and environmental outcomes for maize nitrogen management over static approach.46,311–31910.2134/jeq2016.05.018228380574Search in Google Scholar
Sieling, K., Kage, H., 2006. N balance as an indicator of N leaching in an oilseed rape – winter wheat – winter barley rotation. Agriculture, Ecosystems & Environment 115, 261–269.SielingKKageH2006.N balance as an indicator of N leaching in an oilseed rape –winter wheat –winter barley rotation.115,261–26910.1016/j.agee.2006.01.011Search in Google Scholar
Sievert, M., 2000. Aspekte des Pflanzenschutzes in Winterraps, Winterweizen und Wintergerste bei nichtwendender Bodenbearbeitung. Zugl.: Göttingen, Univ., Diss., 1999. Cuvillier, Göttingen.SievertM2000.Aspekte des Pflanzenschutzes in Winterraps, Winterweizen und Wintergerste bei nichtwendender Bodenbearbeitung.,1999.Cuvillier, Göttingen.Search in Google Scholar
Simon, P.L., Klein, C.A.M. de, Worth, W., Rutherford, A.J., Dieckow, J., 2019. The efficacy of Plantago lanceolata for mitigating nitrous oxide emissions from cattle urine patches. The Science of the Total Environment 691, 430– 441.SimonP.L.KleinC.A.M. deWorthWRutherfordA.J.DieckowJ2019.The efficacy of Plantago lanceolata for mitigating nitrous oxide emissions from cattle urine patches.691,430–441.10.1016/j.scitotenv.2019.07.14131323588Search in Google Scholar
Simon, S., Brun, L., Guinaudeau, J., Sauphanor, B., 2011. Pesticide use in current and innovative apple orchard systems. Agronomy for Sustainable Development 31, 541– 555.SimonSBrunLGuinaudeauJSauphanorB2011.Pesticide use in current and innovative apple orchard systems.31,541–555.10.1007/s13593-011-0003-7Search in Google Scholar
Sinn, C., Pohl, J.-P., Jahncke, D., Golla, B., 2021. Webservices für die teilschlagspezifische Bereitstellung ökologischer und ökonomischer Kennzahlen und Basisinformationen im Pflanzenschutz. 149-158 Seiten / Journal für Kulturpflanzen, Bd. 73 Nr. 5-6 (2021): Themenheft: Assistenzsysteme für den Pflanzenschutz / Journal für Kulturpflanzen, Bd. 73 Nr. 5-6 (2021): Themenheft: Assistenzsysteme für den Pflanzenschutz. Journal für Kulturpflanzen.SinnCPohlJ.-P.JahnckeDGollaB2021.Webservices für die teilschlagspezifische Bereitstellung ökologischer und ökonomischer Kennzahlen und Basisinformationen im Pflanzenschutz. 149-158 Seiten / Journal für Kulturpflanzen, Bd. 73 Nr. 5-6 (2021): Themenheft: Assistenzsysteme für den Pflanzenschutz / Journal für Kulturpflanzen, Bd. 73 Nr. 5-6 (2021): Themenheft: Assistenzsysteme für den Pflanzenschutz..Search in Google Scholar
Sirami, C., Gross, N., Baillod, A.B., Bertrand, C., Carrié, R., Hass, A., Henckel, L., Miguet, P., Vuillot, C., Alignier, A., Girard, J., Batáry, P., Clough, Y., Violle, C., Giralt, D., Bota, G., Badenhausser, I., Lefebvre, G., Gauffre, B., Vialatte, A., Calatayud, F., Gil-Tena, A., Tischendorf, L., Mitchell, S., Lindsay, K., Georges, R., Hilaire, S., Recasens, J., Solé-Senan, X.O., Robleño, I., Bosch, J., Barrientos, J.A., Ricarte, A., Marcos-Garcia, M.Á., Miñano, J., Mathevet, R., Gibon, A., Baudry, J., Balent, G., Poulin, B., Burel, F., Tscharntke, T., Bretagnolle, V., Siriwardena, G., Ouin, A., Brotons, L., Martin, J.-L., Fahrig, L., 2019a. Increasing crop heterogeneity enhances multitrophic diversity across agricultural regions. Proceedings of the National Academy of Sciences of the United States of America 116, 16442–16447.SiramiCGrossNBaillodA.B.BertrandCCarriéR.HassAHenckelLMiguetPVuillotCAlignierAGirardJBatáryPCloughYViolleCGiraltDBotaGBadenhausserILefebvreGGauffreBVialatteACalatayudFGil-TenaATischendorfLMitchellSLindsayKGeorgesRHilaireSRecasensJSolé-SenanX.O.RobleñoI.BoschJBarrientosJ.A.RicarteAMarcos-GarciaM.Á.MiñanoJMathevetRGibonABaudryJBalentGPoulinBBurelFTscharntkeTBretagnolleVSiriwardenaGOuinABrotonsLMartinJ.-L.FahrigL2019a.Increasing crop heterogeneity enhances multitrophic diversity across agricultural regions.116,16442–1644710.1073/pnas.1906419116Search in Google Scholar
Sirami, C., Gross, N., Baillod, A.B., Bertrand, C., Carrié, R., Hass, A., Henckel, L., Miguet, P., Vuillot, C., Alignier, A., Girard, J., Batáry, P., Clough, Y., Violle, C., Giralt, D., Bota, G., Badenhausser, I., Lefebvre, G., Gauffre, B., Vialatte, A., Calatayud, F., Gil-Tena, A., Tischendorf, L., Mitchell, S., Lindsay, K., Georges, R., Hilaire, S., Recasens, J., Solé-Senan, X.O., Robleño, I., Bosch, J., Barrientos, J.A., Ricarte, A., Marcos-Garcia, M.Á., Miñano, J., Mathevet, R., Gibon, A., Baudry, J., Balent, G., Poulin, B., Burel, F., Tscharntke, T., Bretagnolle, V., Siriwardena, G., Ouin, A., Brotons, L., Martin, J.-L., Fahrig, L., 2019b. Increasing crop heterogeneity enhances multitrophic diversity across agricultural regions. Proceedings of the National Academy of Sciences of the United States of America 116, 16442–16447.SiramiCGrossNBaillodA.B.BertrandCCarriéR.HassAHenckelLMiguetPVuillotCAlignierAGirardJBatáryPCloughYViolleCGiraltDBotaGBadenhausserILefebvreGGauffreBVialatteACalatayudFGil-TenaATischendorfLMitchellSLindsayKGeorgesRHilaireSRecasensJSolé-SenanX.O.RobleñoI.BoschJBarrientosJ.A.RicarteAMarcos-GarciaM.Á.MiñanoJMathevetRGibonABaudryJBalentGPoulinBBurelFTscharntkeTBretagnolleVSiriwardenaGOuinABrotonsLMartinJ.-L.FahrigL2019b.Increasing crop heterogeneity enhances multitrophic diversity across agricultural regions.116,16442–1644710.1073/pnas.1906419116Search in Google Scholar
Skiba, U., Drewer, J., Tang, Y.S., van Dijk, N., Helfter, C., Nemitz, E., Famulari, D., Cape, J.N., Jones, S.K., Twigg, M., 2009. Biosphere–atmosphere exchange of reactive nitrogen and greenhouse gases at the NitroEurope core flux measurement sites: Measurement strategy and first data sets. Agriculture, Ecosystems & Environment 133, 139–149.SkibaUDrewerJTangY.S.van DijkNHelfterCNemitzEFamulariDCapeJ.N.JonesS.K.TwiggM2009.Biosphere–atmosphere exchange of reactive nitrogen and greenhouse gases at the NitroEurope core flux measurement sites: Measurement strategy and first data sets.133,139–14910.1016/j.agee.2009.05.018Search in Google Scholar
Skinner, C., Gattinger, A., Muller, A., Mäder, P., Flieβbach, A., Stolze, M., Ruser, R., Niggli, U., 2014. Greenhouse gas fluxes from agricultural soils under organic and non-organic management--a global meta-analysis. The Science of the Total Environment 468-469, 553–563.SkinnerCGattingerAMullerAMäderPFlieβbachAStolzeMRuserRNiggliU2014.Greenhouse gas fluxes from agricultural soils under organic and non-organic management--a global meta-analysis.468-469,553–563.10.1016/j.scitotenv.2013.08.09824061052Search in Google Scholar
Smith, B., Holland, J., Jones, N., Moreby, S., Morris, A.J., Southway, S., 2009. Enhancing invertebrate food resources for skylarks in cereal ecosystems: how useful are incrop agri-environment scheme management options? Journal of Applied Ecology 46, 692–702.SmithBHollandJJonesNMorebySMorrisA.J.SouthwayS2009.Enhancing invertebrate food resources for skylarks in cereal ecosystems: how useful are incrop agri-environment scheme management options?46,692–70210.1111/j.1365-2664.2009.01638.xSearch in Google Scholar
Soane, B.D., Ball, B.C., Arvidsson, J., Basch, G., Moreno, F., Roger-Estrade, J., 2012. No-till in northern, western and south-western Europe: A review of problems and opportunities for crop production and the environment. Soil and Tillage Research 118, 66–87.SoaneB.D.BallB.C.ArvidssonJBaschGMorenoFRoger-EstradeJ2012.No-till in northern, western and south-western Europe: A review of problems and opportunities for crop production and the environment.118,66–8710.1016/j.still.2011.10.015Search in Google Scholar
Soussana, J.F., Graux, A.I., Tubiello, F.N., 2010. Improving the use of modelling for projections of climate change impacts on crops and pastures. Journal of Experimental Botany 61, 2217–2228.SoussanaJ.F.GrauxA.I.TubielloF.N.2010.Improving the use of modelling for projections of climate change impacts on crops and pastures.61,2217–222810.1093/jxb/erq10020410317Search in Google Scholar
Speiser, B., Schärer, H.-J., Tamm, L., 2019. Direct plant protection in organic farming. In: Köpke, U. (Ed.), Improving organic crop cultivation. Burleigh Dodds Series in Agricultural Science Number 47. Burleigh Dodds Science Publishing, Cambridge, UK, pp. 303–322.SpeiserBSchärerH.-J.TammL2019.Direct plant protection in organic farming. In:KöpkeU.(Ed.),.Burleigh Dodds Science Publishing,Cambridge, UK, pp.303–322.10.19103/AS.2017.0029.12Search in Google Scholar
Statistisches Bundesamt, 2019a. Flächenbelegung von Ernährungsgütern 2010-2017. Statistisches Bundesamt. Umweltökonomische Gesamtrechnungen. 29 S.Statistisches Bundesamt,2019a.Flächenbelegung von Ernährungsgütern 2010-2017.. 29 S.Search in Google Scholar
Statistisches Bundesamt, 2019b. Statistisches Jahrbuch. Deutschland und Internationales. 2019. https://www. destatis.de/DE/Themen/Querschnitt/Jahrbuch/statistisches-jahrbuch-2019-dl.pdf?__blob=publicationFile.Statistisches Bundesamt,2019b.. 2019.https://www.destatis.de/DE/Themen/Querschnitt/Jahrbuch/statistisches-jahrbuch-2019-dl.pdf?__blob=publicationFile.Search in Google Scholar
Steffen, W., Richardson, K., Rockström, J., Cornell, S.E., Fetzer, I., Bennett, E.M., Biggs, R., Carpenter, S.R., Vries, W. de, Wit, C.A. de, Folke, C., Gerten, D., Heinke, J., Mace, G.M., Persson, L.M., Ramanathan, V., Reyers, B., Sörlin, S., 2015. Sustainability. Planetary boundaries: guiding human development on a changing planet. Science 347, 1259855.SteffenWRichardsonKRockströmJ.CornellS.E.FetzerIBennettE.M.BiggsRCarpenterS.R.VriesW. deWitC.A. deFolkeCGertenDHeinkeJMaceG.M.PerssonL.M.RamanathanVReyersBSörlinS2015.Sustainability..347,1259855.10.1126/science.1259855Search in Google Scholar
Stein-Bachinger, K., Fuchs, S., 2012. Protection strategies for farmland birds in legume–grass leys as trade-offs between nature conservation and farmers’ needs. Organic Agriculture, 2(2), 145-162.Stein-BachingerKFuchsS2012.Protection strategies for farmland birds in legume–grass leys as trade-offs between nature conservation and farmers’ needs.,2(2),145-162.10.1007/s13165-012-0029-4Search in Google Scholar
Stein-Bachinger, K., Gottwald, F., Haub, A., Schmidt, E., 2021. To what extent does organic farming promote species richness and abundance in temperate climates? A review. Springer; Springer Netherlands. Organic Agriculture 11, 1–12.Stein-BachingerKGottwaldFHaubASchmidtE2021.To what extent does organic farming promote species richness and abundance in temperate climates? A review.Springer;Springer Netherlands.11,1–1210.1007/s13165-020-00279-2Search in Google Scholar
Steinkellner, S., 2019. Nationale Machbarkeitsstudie zum Glyphosatausstieg. Endbericht zum Forschungsprojekt Nummer 101347. Universität für Bodenkultur Wien, Wien. 257 S. https://www.bmlrt. gv.at/dam/jcr:acbc2379-c87b-4448-81e3-e70fe-73fe0e2/Endbericht_Glyphosat_Forschungsprojekt_ Nr_101347_08_2019_b.pdf.SteinkellnerS2019..https://www.bmlrt.gv.at/dam/jcr:acbc2379-c87b-4448-81e3-e70fe-73fe0e2/Endbericht_Glyphosat_Forschungsprojekt_Nr_101347_08_2019_b.pdf.Search in Google Scholar
Steinmann, T., Welp, G., Holbeck, B., Amelung, W., 2016a. Long-term development of organic carbon contents in arable soil of North Rhine-Westphalia, Germany, 19792015. European Journal of Soil Science 67, 616–623.SteinmannTWelpGHolbeckBAmelungW2016a.Long-term development of organic carbon contents in arable soil of North Rhine-Westphalia, Germany, 19792015.67,616–62310.1111/ejss.12376Search in Google Scholar
Steinmann, T., Welp, G., Wolf, A., Holbeck, B., Große-Rüschkamp, T., Amelung, W., 2016b. Repeated monitoring of organic carbon stocks after eight years reveals carbon losses from intensively managed agricultural soils in Western Germany. Journal of Plant Nutrition and Soil Science 179, 355–366.SteinmannTWelpGWolfAHolbeckBGroße-RüschkampTAmelungW2016b.Repeated monitoring of organic carbon stocks after eight years reveals carbon losses from intensively managed agricultural soils in Western Germany.179,355–36610.1002/jpln.201500503Search in Google Scholar
Suso, M.J., Bebeli, P.J., Christmann, S., Mateus, C., Negri, V., Pinheiro de Carvalho, M.A.A., Torricelli, R., Veloso, M.M., 2016. Enhancing legume ecosystem services through an understanding of plant-pollinator interplay. Frontiers in Plant Science 7, 333.SusoM.J.BebeliP.J.ChristmannSMateusCNegriVPinheiro de CarvalhoM.A.A.TorricelliRVelosoM.M.2016.Enhancing legume ecosystem services through an understanding of plant-pollinator interplay.7,333.10.3389/fpls.2016.00333Search in Google Scholar
Suso, M.J., del Río, R., 2015. A crop–pollinator inter-play approach to assessing seed production patterns in faba bean under two pollination environments. Euphytica 201, 231–251.SusoM.J.del RíoR.,2015.A crop–pollinator inter-play approach to assessing seed production patterns in faba bean under two pollination environments.201,231–25110.1007/s10681-014-1200-7Search in Google Scholar
Suter, M., Lüscher, A., 2008. Occurrence of Senecio aquaticus in relation to grassland management. Applied Vegetation Science 11, 317–324.SuterMLüscherA2008.Occurrence of Senecio aquaticus in relation to grassland management.11,317–32410.1111/j.1654-109X.2008.tb00448.xSearch in Google Scholar
Sylvester-Bradley, R., Thorman, R.E., Kindred, D.R., Wynn, S. C., Smith, K.E., Rees, R.M., Topp, C., Pappa, V.A., Mortimer, N.D., Misselbrook, T.H., Gilhespy, S., Cardenas, L.M., Chauhan, M., Bennett, G., Malkin, S., Munro, D.G., 2015. Minimising nitrous oxide intensities of arable crop products (MIN-NO). AHDB Project Report. Agriculture and Horticulture Development Board (AHDB). 228 S. https://ahdb.org.uk/minimising-nitrous-oxideintensities-of-arable-crop-products-min-no.Sylvester-BradleyRThormanR.E.KindredD.R.WynnS.C.SmithK.E.ReesR.M.ToppCPappaV.A.MortimerN.D.MisselbrookT.H.GilhespySCardenasL.M.ChauhanMBennettGMalkinSMunroD.G.,2015.Minimising nitrous oxide intensities of arable crop products (MIN-NO).. 228 S.https://ahdb.org.uk/minimising-nitrous-oxideintensities-of-arable-crop-products-min-no.Search in Google Scholar
Szöcs, E., Brinke, M., Karaoglan, B., Schäfer, R.B., 2017. Large scale risks from agricultural pesticides in small streams. Environmental Science & Technology 51, 7378–7385.SzöcsEBrinkeMKaraoglanBSchäferR.B.2017.Large scale risks from agricultural pesticides in small streams.51,7378–738510.1021/acs.est.7b0093328594168Search in Google Scholar
Taube, F., 2018. Expertise zur Bewertung des neuen Düngerechts (DüG, DüV, StoffBilV) von 2017 in Deutschland im Hinblick auf den Gewässerschutz. Studie im Auftrag von: BDEW - Bundesverband der Energie- und Wasserwirtschaft e. V., Kiel. 25 S.TaubeF2018.Expertise zur Bewertung des neuen Düngerechts (DüG, DüV, StoffBilV) von 2017 in Deutschland im Hinblick auf den Gewässerschutz..V.Kiel. 25 S.Search in Google Scholar
Tebbe, C., Breckheimer, B., Racca, P., Schorn, C., Kleinhenz, B., Nauen, R., 2016. Incidence and spread of knockdown resistance (kdr ) in German Colorado potato beetle (Leptinotarsa decemlineata Say) populations. EPPO Bulletin 46, 129–138.TebbeCBreckheimerBRaccaPSchornCKleinhenzB.NauenR2016.Incidence and spread of knockdown resistance (kdr ) in German Colorado potato beetle (Leptinotarsa decemlineata Say) populations.46,129–13810.1111/epp.12265Search in Google Scholar
Tebrügge, F., 1990. Stroheinarbeitung: Nicht bloß Resteverwertung. DLG Mitteilungen 13, 592.TebrüggeF1990.Stroheinarbeitung: Nicht bloß Resteverwertung.13,592.Search in Google Scholar
Techen, A.-K., Ries, E., Steinführer, A., 2015. Evaluierung der Gewässerschutzberatung in Hessen im Kontext der EU-Wasserrahmenrichtlinie: Auswirkungen auf Wissen und Handeln von Landwirten. Johann Heinrich von Thünen-Institut. Thünen Report 33. https://www.openagrar.de/receive/timport_mods_00008882.TechenA.-K.RiesESteinführerA2015.Evaluierung der Gewässerschutzberatung in Hessen im Kontext der EU-Wasserrahmenrichtlinie: Auswirkungen auf Wissen und Handeln von Landwirten. Johann Heinrich von Thünen-Institut.33.https://www.openagrar.de/receive/timport_mods_00008882.Search in Google Scholar
Thate, A., 2014. Resistenzen gegenüber Pflanzenschutzmitteln in Sachsen. Landesamt für Umwelt, Landwirtschaft und Geologie. 2 S.ThateA2014.Resistenzen gegenüber Pflanzenschutzmitteln in Sachsen.. 2 S.Search in Google Scholar
Thies, C., Schreiber, J., Flohre, A., Fischer, C., Tscharntke, T., 2010. Diversität, Produktivität und landwirtschaftliche Intensivierung. In: Hotes, S., Wolters, V. (Eds.), Fokus Biodiversität. Wie Biodiversität in der Kulturlandschaft erhalten und nachhaltig genutzt werden kann. Oekom Verlag, München, pp. 171–175.ThiesCSchreiberJFlohreAFischerCTscharntkeT.,2010.Diversität, Produktivität und landwirtschaftliche Intensivierung. In:HotesSWoltersV.(Eds.),.Oekom Verlag, München, pp.171–175.Search in Google Scholar
Tilman, D., Cassman, K.G., Matson, P.A., Naylor, R., Polasky, S., 2002. Agricultural sustainability and intensive production practices. Nature 418, 671–677.TilmanDCassmanK.G.MatsonP.A.NaylorRPolaskyS2002.Agricultural sustainability and intensive production practices.418,671–67710.1038/nature0101412167873Search in Google Scholar
Tilman, D., Socolow, R., Foley, J.A., Hill, J., Larson, E., Lynd, L., Pacala, S., Reilly, J., Searchinger, T., Somerville, C., Williams, R., 2009. Energy. Beneficial biofuels--the food, energy, and environment trilemma. Science 325, 270–271.TilmanDSocolowRFoleyJ.A.HillJLarsonELyndLPacalaSReillyJSearchingerTSomervilleC.WilliamsR2009.Energy. Beneficial biofuels--the food, energy, and environment trilemma.325,270–27110.1126/science.117797019608900Search in Google Scholar
Tonn, B., Thumm, U., Claupein, W., 2010. Semi-natural grassland biomass for combustion: influence of botanical composition, harvest date and site conditions on fuel composition. Grass and Forage Science 65, 383–397.TonnBThummUClaupeinW2010.Semi-natural grassland biomass for combustion: influence of botanical composition, harvest date and site conditions on fuel composition.65,383–39710.1111/j.1365-2494.2010.00758.xSearch in Google Scholar
Tscharntke, T., Grass, I., Wanger, T.C., Westphal, C., Batáry, P., 2021. Beyond organic farming - harnessing biodiversity-friendly landscapes. Trends in Ecology & Evolution 36, 919–930.TscharntkeTGrassIWangerT.C.WestphalCBatáryP2021.Beyond organic farming - harnessing biodiversity-friendly landscapes.36,919–93010.1016/j.tree.2021.06.01034362590Search in Google Scholar
Tschumi, M., Albrecht, M., Bärtschi, C., Collatz, J., Entling, M.H., Jacot, K., 2016. Perennial, species-rich wildflower strips enhance pest control and crop yield. Agriculture, Ecosystems & Environment 220, 97–103.TschumiMAlbrechtMBärtschiCCollatzJEntlingM.H.JacotK2016.Perennial, species-rich wildflower strips enhance pest control and crop yield.220,97–10310.1016/j.agee.2016.01.001Search in Google Scholar
Ulber, L., Rissel, D., 2018. Farmers’ perspective on herbicideresistant weeds and application of resistance management strategies: results from a German survey. Pest management science 74, 2335–2345.UlberLRisselD2018.Farmers’ perspective on herbicideresistant weeds and application of resistance management strategies: results from a German survey.74,2335–234510.1002/ps.479329148615Search in Google Scholar
Umstatter, C., 2011. The evolution of virtual fences: A review. Computers and Electronics in Agriculture 75, 10–22.UmstatterC2011.The evolution of virtual fences: A review.75,10–2210.1016/j.compag.2010.10.005Search in Google Scholar
van den Putte, A., Govers, G., Diels, J., Gillijns, K., Demuzere, M., 2010. Assessing the effect of soil tillage on crop growth: A meta-regression analysis on European crop yields under conservation agriculture. Elsevier. European Journal of Agronomy 33, 231–241.van den PutteAGoversGDielsJGillijnsKDemuzereM2010.Assessing the effect of soil tillage on crop growth: A meta-regression analysis on European crop yields under conservation agriculture.Elsevier.33,231–24110.1016/j.eja.2010.05.008Search in Google Scholar
van der Kooi, C.J., Reich, M., Löw, M., Kok, L.J. de, Tausz, M., 2016. Growth and yield stimulation under elevated CO 2 and drought: A meta-analysis on crops. Elsevier BV. Environmental and Experimental Botany 122, 150–157.van der KooiC.J.ReichMLöwM.KokL.J. deTauszM2016.Growth and yield stimulation under elevated CO 2 and drought: A meta-analysis on crops.122,150–15710.1016/j.envexpbot.2015.10.004Search in Google Scholar
van der Ploeg, R.R., Ringe, H., Machulla, G., Hermsmeyer, D., 1997. Postwar Nitrogen Use Efficiency in West German Agriculture and Groundwater Quality. Journal of Environmental Quality 26, 1203–1212.van der PloegR.R.RingeHMachullaGHermsmeyerD.1997.Postwar Nitrogen Use Efficiency in West German Agriculture and Groundwater Quality.26,1203–121210.2134/jeq1997.00472425002600050003xSearch in Google Scholar
van Groenigen, J.W., Velthof, G.L., Oenema, O., van Groenigen, K.J., van Kessel, C., 2010. Towards an agronomic assessment of N2O emissions: a case study for arable crops. European Journal of Soil Science 61, 903–913.van GroenigenJ.W.VelthofG.L.OenemaOvan GroenigenK.J.van KesselC2010.Towards an agronomic assessment of N2O emissions: a case study for arable crops.61,903–91310.1111/j.1365-2389.2009.01217.xSearch in Google Scholar
Voss, M.C., 1998. Einfluss einer reduzierten Bodenbearbeitung und Direktsaat auf das Auftreten von Ackerschnecken (Mollusca, Gastropoda), die Verunkrautung sowie den Befall mit der Wurzelhals- und Stengelfäule (Phoma lingam) in Winterraps. Dissertation.VossM.C.1998.Einfluss einer reduzierten Bodenbearbeitung und Direktsaat auf das Auftreten von Ackerschnecken (Mollusca, Gastropoda), die Verunkrautung sowie den Befall mit der Wurzelhals- und Stengelfäule (Phoma lingam) in Winterraps..Search in Google Scholar
Voßhenrich, H.-H., Landschreiber, M., Henne, U., Schleich-Saidfar, C., Epperlein, J., Olderog-Enge, K., Matthiesen, H., 2018. Entwicklung nachhaltig wirkender Methoden zur Ackerfuchssschwanzbekämpfung. Heinrich von Thünen-Institut, Braunschweig. 163 S. 10.3220/ WP1530178331000.VoßhenrichH.-H.LandschreiberMHenneUSchleich-SaidfarCEpperleinJOlderog-EngeKMatthiesenH.,2018..Heinrich von Thünen-Institut,Braunschweig. 163 S.10.3220/ WP1530178331000.Open DOISearch in Google Scholar
Vries, W. de, Kros, J., Kroeze, C., Seitzinger, S.P., 2013. Assessing planetary and regional nitrogen boundaries related to food security and adverse environmental impacts. Current Opinion in Environmental Sustainability 5, 392–402.VriesW. deKrosJKroezeCSeitzingerS.P.2013.Assessing planetary and regional nitrogen boundaries related to food security and adverse environmental impacts.5,392–40210.1016/j.cosust.2013.07.004Search in Google Scholar
Wachendorf, M., Buchter, M., Trott, H., Taube, F., 2004. Performance and environmental effects of forage production on sandy soils. II. Impact of defoliation system and nitrogen input on nitrate leaching losses. Grass and Forage Science 59, 56–68.WachendorfMBuchterMTrottHTaubeF2004.Performance and environmental effects of forage production on sandy soils. II. Impact of defoliation system and nitrogen input on nitrate leaching losses.59,56–6810.1111/j.1365-2494.2004.00401.xSearch in Google Scholar
Wagner, D.L., 2020. Insect Declines in the Anthropocene. Annual Review of Entomology 65, 457–480.WagnerD.L.2020.Insect Declines in the Anthropocene.65,457–48010.1146/annurev-ento-011019-02515131610138Search in Google Scholar
Webb, J., Pain, B., Bittman, S., Morgan, J., 2010. The impacts of manure application methods on emissions of ammonia, nitrous oxide and on crop response—A review. Agriculture, Ecosystems & Environment 137, 39–46.WebbJPainBBittmanSMorganJ2010.The impacts of manure application methods on emissions of ammonia, nitrous oxide and on crop response—A review.137,39–4610.1016/j.agee.2010.01.001Search in Google Scholar
Weber, K., Eichenauer, S., Stadlbauer, E., Schulten, M.A., Echterhof, T., Kammann, C., Schmidt, H.-P., Gerlach, A., Gerlach, H., 2016. Verwendung von Biomassekarbonisaten. In: Quicker, P., Weber, K. (Eds.), Biokohle. Springer Fachmedien Wiesbaden, Wiesbaden, pp. 213–246.WeberKEichenauerSStadlbauerESchultenM.A.EchterhofTKammannCSchmidtH.-P.GerlachAGerlachH2016.Verwendung von Biomassekarbonisaten. In:QuickerPWeberK.(Eds.),.Springer Fachmedien Wiesbaden,Wiesbaden, pp.213–246.10.1007/978-3-658-03689-8_5Search in Google Scholar
Weisser, W.W., Roscher, C., Meyer, S.T., Ebeling, A., Luo, G., Allan, E., Beßler, H., Barnard, R.L., Buchmann, N., Buscot, F., Engels, C., Fischer, C., Fischer, M., Gessler, A., Gleixner, G., Halle, S., Hildebrandt, A., Hillebrand, H., Kroon, H. de, Lange, M., Leimer, S., Le Roux, X., Milcu, A., Mommer, L., Niklaus, P.A., Oelmann, Y., Proulx, R., Roy, J., Scherber, C., Scherer-Lorenzen, M., Scheu, S., Tscharntke, T., Wachendorf, M., Wagg, C., Weigelt, A., Wilcke, W., Wirth, C., Schulze, E.-D., Schmid, B., Eisenhauer, N., 2017. Biodiversity effects on ecosystem functioning in a 15-year grassland experiment: Patterns, mechanisms, and open questions. Basic and Applied Ecology 23, 1–73.WeisserW.W.RoscherCMeyerS.T.EbelingALuoGAllanEBeßlerHBarnardR.L.BuchmannNBuscotFEngelsCFischerCFischerMGesslerAGleixnerGHalleSHildebrandtAHillebrandHKroonH. deLangeMLeimerSLe RouxXMilcuAMommerLNiklausP.A.OelmannYProulxR.RoyJScherberCScherer-LorenzenMScheuS.TscharntkeTWachendorfMWaggCWeigeltAWilckeWWirthCSchulzeE.-D.SchmidBEisenhauerN2017.Biodiversity effects on ecosystem functioning in a 15-year grassland experiment: Patterns, mechanisms, and open questions.23,1–7310.1016/j.baae.2017.06.002Search in Google Scholar
Wiesler, F., Hund-Rinke, K., Gäth, S., George, E., Greef, J.-M., Hölzle, Prof. Dr. Ludwig E., Holz, F., Hülsbergen, K.-J., Pfeil, R., Severin, K., Frede, H.-G., Blum, D.-I. A.B., Schenkel, H., Horst, W., Dittert, K., Ebertseder, T., Osterburg, B., Philipp, W., Pietsch, M., 2016. Anwendung von organischen Düngern und organischen Reststoffen in der Landwirtschaft. Berichte über Landwirtschaft - Zeitschrift für Agrarpolitik und Landwirtschaft 94, 1–25.WieslerFHund-RinkeKGäthSGeorgeEGreefJ.-M.HölzleProf. DrLudwig E.HolzFHülsbergenK.-J.PfeilRSeverinKFredeH.-G.BlumD.-I. A.B.SchenkelHHorstWDittertKEbertsederT.OsterburgBPhilippWPietschM2016.Anwendung von organischen Düngern und organischen Reststoffen in der Landwirtschaft.94,1–25Search in Google Scholar
Wiesmeier, M., Poeplau, C., Sierra, C.A., Maier, H., Frühauf, C., Hübner, R., Kühnel, A., Spörlein, P., Geuß, U., Hangen, E., Schilling, B., Lützow, M. von, Kögel-Knabner, I., 2016. Projected loss of soil organic carbon in temperate agricultural soils in the 21(st) century: effects of climate change and carbon input trends. Scientific Reports 6, 32525.WiesmeierMPoeplauCSierraC.A.MaierHFrühaufCHübnerRKühnelASpörleinPGeußU.HangenESchillingBLützowM. vonKögel-KnabnerI.,2016.Projected loss of soil organic carbon in temperate agricultural soils in the 21(st) century: effects of climate change and carbon input trends.6,32525.10.1038/srep32525500943027585648Search in Google Scholar
Wijewardene, L., Wu, N., Qu, Y., Guo, K., Messyasz, B., Lorenz, S., Riis, T., Ulrich, U., Fohrer, N., 2021. Influences of pesticides, nutrients, and local environmental variables on phytoplankton communities in lentic small water bodies in a German lowland agricultural area. The Science of the Total Environment 780, 146481.WijewardeneLWuNQuYGuoKMessyaszBLorenzSRiisTUlrichUFohrerN2021.Influences of pesticides, nutrients, and local environmental variables on phytoplankton communities in lentic small water bodies in a German lowland agricultural area.780,146481.10.1016/j.scitotenv.2021.14648133774292Search in Google Scholar
Wilson, J.B., Peet, R.K., Dengler, J., Pärtel, M., 2012. Plant species richness: the world records. Journal of Vegetation Science 23, 796–802.WilsonJ.B.PeetR.K.DenglerJPärtelM2012.Plant species richness: the world records.23,796–80210.1111/j.1654-1103.2012.01400.xSearch in Google Scholar
Winter, S., Jung, L.S., Eckstein, R.L., Otte, A., Donath, T.W., Kriechbaum, M., 2014. Control of the toxic plant Colchicum autumnale in semi-natural grasslands: effects of cutting treatments on demography and diversity. Journal of Applied Ecology 51, 524–533.WinterSJungL.S.EcksteinR.L.OtteADonathT.W.KriechbaumM2014.Control of the toxic plant Colchicum autumnale in semi-natural grasslands: effects of cutting treatments on demography and diversity.51,524–53310.1111/1365-2664.12217Search in Google Scholar
Wissenschaftlicher Beirat Agrarpolitik, 2007. Nutzung von Biomasse zur Energiegewinnung. Wissenschaftlicher Beirat Agrarpolitik beim Bundesministerium für Ernährung, Landwirtschaft und Verbraucherschutz 11. 255 S.Wissenschaftlicher Beirat Agrarpolitik,2007.Nutzung von Biomasse zur Energiegewinnung.11.255 S.Search in Google Scholar
Wurbs, D., Steininger, D., 2011. Wirkungen der Klimaänderungen auf die Böden. Untersuchungen zu Auswirkungen des Klimawandels auf die Bodenerosion durch Wasser. Umweltbundesamt. 225 S.WurbsDSteiningerD2011.Wirkungen der Klimaänderungen auf die Böden.. 225 S.Search in Google Scholar
Yang, G., Liu, J., Zhao, C., Li, Z., Huang, Y., Yu, H., Xu, B., Yang, X., Zhu, D., Zhang, X., Zhang, R., Feng, H., Zhao, X., Li, Z., Li, H., Yang, H., 2017. Unmanned Aerial Vehicle Remote Sensing for Field-Based Crop Phenotyping: Current Status and Perspectives. Frontiers in Plant Science 8, 1111.YangGLiuJZhaoCLiZHuangYYuHXuBYangXZhuDZhangXZhangRFengHZhaoXLiZLiHYangH2017.Unmanned Aerial Vehicle Remote Sensing for Field-Based Crop Phenotyping: Current Status and Perspectives.8,1111.10.3389/fpls.2017.01111549285328713402Search in Google Scholar
Ye, L., Camps-Arbestain, M., Shen, Q., Lehmann, J., Singh, B., Sabir, M., 2020. Biochar effects on crop yields with and without fertilizer: A meta-analysis of field studies using separate controls. Wiley. Soil Use and Management 36, 2–18.YeLCamps-ArbestainMShenQLehmannJSinghBSabirM2020.Biochar effects on crop yields with and without fertilizer: A meta-analysis of field studies using separate controls.Wiley.36,2–1810.1111/sum.12546Search in Google Scholar
Yi, C., Kaul, H.-P., Kübler, E., Schwadorf, K., Aufhammer, W., 2001. Head blight (Fusarium graminearum) and deoxynivalenol concentration in winter wheat as affected by pre-crop, soil tillage and nitrogen fertilization. Zeitschrift für Pflanzenkrankheiten und Pflanzenschutz 108, 217–230.YiCKaulH.-P.KüblerESchwadorfKAufhammerW2001.Head blight (Fusarium graminearum) and deoxynivalenol concentration in winter wheat as affected by pre-crop, soil tillage and nitrogen fertilization.108,217–230Search in Google Scholar
Zimmer, J., Roschke, M., Schulze, D., 2005. Influence of different treatments of organic and mineral fertilization on yield, soil organic matter and N-balance of a diluvial sandy soil – results after 45 years long-term field experiment P60 (Groß Kreutz, 1959 – 2003). Archives of Agronomy and Soil Science 51, 135–149.ZimmerJRoschkeMSchulzeD2005.Influence of different treatments of organic and mineral fertilization on yield, soil organic matter and N-balance of a diluvial sandy soil –results after 45 years long-term field experiment P60 (Groß Kreutz, 1959 –2003).51,135–14910.1080/03650340400026636Search in Google Scholar
ZKL, 2021. Zukunft Landwirtschaft. Eine gesamtgesellschaftliche Aufgabe. Empfehlungen der Zukunftskommission Landwirtschaft. https://www.bundesregierung. de/breg-de/suche/zukunft-landwirtschaft-1940048.ZKL,2021..https://www.bundesregierung.de/breg-de/suche/zukunft-landwirtschaft-1940048.Search in Google Scholar
Zörb, C., Ludewig, U., Hawkesford, M.J., 2018. Perspective on wheat yield and quality with reduced nitrogen supply. Trends in Plant Science 23, 1029–1037.ZörbCLudewigUHawkesfordM.J.2018.Perspective on wheat yield and quality with reduced nitrogen supply.23,1029–103710.1016/j.tplants.2018.08.012620269730249481Search in Google Scholar
Zorn, W., Schröter, H., 2014. Auswertung aktueller Versuche zur P-Düngung auf dem Ackerland nach der Bilanz-methode. VDLUFA-Verlag, Darmstadt. In: Kongress-band 2014 Hohenheim. Vorträge zum Generalthema: Nährstoffbedarf und Nährstoffversorgung von Pflanze und Tier. VDLUFA-Schriftenreihe 70. VDLUFA-Verlag, Darmstadt, pp. 261–268.ZornWSchröterH2014.Auswertung aktueller Versuche zur P-Düngung auf dem Ackerland nach der Bilanz methode. VDLUFA-Verlag, Darmstadt. In:70.VDLUFA-Verlag,Darmstadt, pp.261–268.Search in Google Scholar