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Annicchiarico, P. and E. Piano (2004): Indirect selection for root development of white clover and implications for drought tolerance. Journal of Agronomy and Crop Science 190, 28–34.AnnicchiaricoP.PianoE.2004Indirect selection for root development of white clover and implications for drought tolerance190283410.1046/j.0931-2250.2003.00070.xSearch in Google Scholar
Benjamin J.G. and D.C. Nielsen (2006): Water deficit effects on root distribution of soybean, field pea and chickpea. Field Crops Research 97, 248–253.BenjaminJ.G.NielsenD.C.2006Water deficit effects on root distribution of soybean, field pea and chickpea9724825310.1016/j.fcr.2005.10.005Search in Google Scholar
Bodner G., Leitner, D., Nakhforoosh, A., Sobotik, M., Moder, K. and H.-P. Kaul (2013): A statistical approach to root system classification. Frontiers in Plant Science 4, 292.BodnerG.LeitnerD.NakhforooshA.SobotikM.ModerK.KaulH.-P.2013A statistical approach to root system classification429210.3389/fpls.2013.00292Search in Google Scholar
Craine, J. and R. Dybzinski (2013): Mechanisms of plant competition for nutrients, water and light. Functional Ecology 27, 833–840.CraineJ.DybzinskiR.2013Mechanisms of plant competition for nutrients, water and light2783384010.1111/1365-2435.12081Search in Google Scholar
Ebrahimi, E., Kaul, H.-P., Neugschwandtner, R.W. and A. Dabbagh Mohammadi Nassab (2017): Productivity of wheat (Triticum aestivum L.) intercropped with rape-seed (Brassica napus L.). Canadian Journal of Plant Science 97, 557–568.EbrahimiE.KaulH.-P.NeugschwandtnerR.W.Dabbagh Mohammadi NassabA.2017Productivity of wheat (Triticum aestivum L.) intercropped with rape-seed (Brassica napus L.)9755756810.1139/CJPS-2016-0216Search in Google Scholar
Eissenstat, D.M. and R.D. Yanai (1997): The ecology of root lifespan. Advances in Ecological Research 27, 1–60.EissenstatD.M.YanaiR.D.1997The ecology of root lifespan2716010.1016/S0065-2504(08)60005-7Search in Google Scholar
Farzaneh M., Wichmann S., Vierheilig H. and H.-P. Kaul (2009): The effects of arbuscular mycorrhiza and nitrogen nutrition on growth of chickpea and barley. Pflanzenbauwissenschaften 13, 15–22.FarzanehM.WichmannS.VierheiligH.KaulH.-P.2009The effects of arbuscular mycorrhiza and nitrogen nutrition on growth of chickpea and barley131522Search in Google Scholar
Fernández V. and T. Eichert (2009): Uptake of hydrophilic solutes through plant leaves: current state of knowledge and perspectives of foliar fertilization. Critical Reviews in Plant Sciences 28, 36–68.FernándezV.EichertT.2009Uptake of hydrophilic solutes through plant leaves: current state of knowledge and perspectives of foliar fertilization28366810.1080/07352680902743069Search in Google Scholar
Ho, M., Rosas, J., Brown, K. and J.P. Lynch (2005): Root architectural tradeoffs for water and phosphorus acquisition. Functional Plant Biology 32, 737–748.HoM.RosasJ.BrownK.LynchJ.P.2005Root architectural tradeoffs for water and phosphorus acquisition3273774810.1071/FP0504332689171Search in Google Scholar
Ingram, K.T., Bueno, F.O., Namuco, O.S., Yambao, E.B. and C.A. Beyrouty (1994): Rice root traits for drought resistance and their genetic variation. In: Kirk, G.J.O. (Ed.): Rice Roots: Nutrient and Water use. International Rice Research Institute, Los Banos, Manila, Philippines, pp. 67–77.IngramK.T.BuenoF.O.NamucoO.S.YambaoE.B.BeyroutyC.A.1994Rice root traits for drought resistance and their genetic variationIn:KirkG.J.O.(Ed.):International Rice Research InstituteLos Banos, Manila, Philippines6777Search in Google Scholar
Jensen, E.S., Ambus, P., Bellostas, N., Boisen, S., Brisson, N. and G. Corre-Hellou (2007): Intercropping of cereals and grain legumes for increased production, weed control, improved product quality and prevention of N-losses in European organic farming systems. In: Andreasen, C.B., Elsgaard, L., Sørensen, L.S. and G. Hansen (Eds.): Proceedings, Danish Research Centre for Organic Food and Farming (DARCOF), Tjele, pp. 180–181.JensenE.S.AmbusP.BellostasN.BoisenS.BrissonN.Corre-HellouG.2007Intercropping of cereals and grain legumes for increased production, weed control, improved product quality and prevention of N-losses in European organic farming systemsIn:AndreasenC.B.ElsgaardL.SørensenL.S.HansenG.(Eds.):Tjele180181Search in Google Scholar
Klimek-Kopyra, A., Kulig, B., Głąb, T., Stokłosa, A. and T. Zając (2015a): Vertical distribution of linseed and legumes roots system in pure sowing or mixture. Acta Agrobotanica 68, 43–52.Klimek-KopyraA.KuligB.GłąbT.StokłosaA.ZającT.2015aVertical distribution of linseed and legumes roots system in pure sowing or mixture68435210.5586/aa.2015.004Search in Google Scholar
Klimek-Kopyra, A., Kulig, B., Oleksy, A. and T. Zając (2015b): Agronomic performance of naked oat (Avena nuda L.) and faba bean intercropping. Chilean Journal of Agricultural Research 75, 168–173.Klimek-KopyraA.KuligB.OleksyA.ZającT.2015bAgronomic performance of naked oat (Avena nuda L.) and faba bean intercropping7516817310.4067/S0718-58392015000200005Search in Google Scholar
Klimek-Kopyra, A., Strojny, J., Zając, T., Ślizowska, A., Klimesova, J. and R.W. Neugschwandtner (2017): Ordinal regression model for pea seed mass. Die Bodenkultur: Journal of Land Management, Food and Environment 68, 81–87.Klimek-KopyraA.StrojnyJ.ZającT.ŚlizowskaA.KlimesovaJ.NeugschwandtnerR.W.2017Ordinal regression model for pea seed mass68818710.1515/boku-2017-0008Search in Google Scholar
Klimek-Kopyra, A., Oleksy, A., Zając, T., Głąb, T. and R. Mazurek (2018a): Impact of inoculant and foliar fertilization on root system parameters of pea (Pisum sativum L.). Polish Journal of Soil Science 51, 23–39.Klimek-KopyraA.OleksyA.ZającT.GłąbT.MazurekR.2018aImpact of inoculant and foliar fertilization on root system parameters of pea (Pisum sativum L.)51233910.17951/pjss.2018.51.1.23Search in Google Scholar
Klimek-Kopyra, A., Oleksy, A., Zając, T. and B. Kulig (2018b): Value of different vegetative indices (NDVI, GAI) usage in assessment of productive potential of pea (Pisum sativum L.) at different growth stages under varying management practices. Acta Agrobotanica 71, 1–13.Klimek-KopyraA.OleksyA.ZającT.KuligB.2018bValue of different vegetative indices (NDVI, GAI) usage in assessment of productive potential of pea (Pisum sativum L.) at different growth stages under varying management practices7111310.5586/aa.1733Search in Google Scholar
Klimek-Kopyra, A. and K. Rębilas (2019): Dependence of pea root mass distribution on weather conditions under varying levels of phosphorus application. International Agrophysics 32, 365–372.Klimek-KopyraA.RębilasK.2019Dependence of pea root mass distribution on weather conditions under varying levels of phosphorus application3236537210.1515/intag-2017-0026Search in Google Scholar
Klimek-Kopyra, A., Zając, T., Mańkowski, J. and A. Oleksy (2020): Comparison of intercropping and pure cropping as determinants of the stem and canopy foliage of linseed (Linum usitatissimum L.) and pea (Pisum sativum L.) cultivars and their productivity. Journal of Natural Fibers, DOI: 10.1080/15440478.2020.1726246.Klimek-KopyraA.ZającT.MańkowskiJ.OleksyA.2020Comparison of intercropping and pure cropping as determinants of the stem and canopy foliage of linseed (Linum usitatissimum L.) and pea (Pisum sativum L.) cultivars and their productivity10.1080/15440478.2020.1726246Open DOISearch in Google Scholar
Lynch, J.P. (2013): Steep, cheap and deep: An ideotype to optimize water and N acquisition by maize root systems. Annals of Botany 112, 347–357.LynchJ.P.2013Steep, cheap and deep: An ideotype to optimize water and N acquisition by maize root systems11234735710.1093/aob/mcs293369838423328767Search in Google Scholar
Lynch, J.P. (2018): Rightsizing root phenotypes for drought resistance. Journal of Experimental Botany 69, 3279–329.LynchJ.P.2018Rightsizing root phenotypes for drought resistance69327932910.1093/jxb/ery04829471525Search in Google Scholar
Laio, F., D’Odorico, P. and L. Ridolfi (2006): An analytical model to relate the vertical root distribution to climate and soil properties. Geophysical Research Letters 33, L18401.LaioF.D’OdoricoP.RidolfiL.2006An analytical model to relate the vertical root distribution to climate and soil properties33L1840110.1029/2006GL027331Search in Google Scholar
Matsui, T. and B.B. Singh (2003): Root characteristics in cowpea related to drought tolerance at the seedling stage. Experimental Agriculture 39, 29–38.MatsuiT.SinghB.B.2003Root characteristics in cowpea related to drought tolerance at the seedling stage39293810.1017/S0014479703001108Search in Google Scholar
Neugschwandtner, R.W. and H.-P. Kaul (2016a): Concentrations and uptake of macronutrients by oat and pea in intercrops in response to N fertilization and sowing ratio. Archives of Agronomy and Soil Science 67, 1–15.NeugschwandtnerR.W.KaulH.-P.2016aConcentrations and uptake of macronutrients by oat and pea in intercrops in response to N fertilization and sowing ratio6711510.1080/03650340.2016.1147648Search in Google Scholar
Neugschwandtner, R.W. and H.-P. Kaul (2016b): Concentrations and uptake of micronutrients by oat and pea in intercrops in response to N fertilization and sowing ratio. Die Bodenkultur: Journal of Land Management, Food and Environment 67, 1–15.NeugschwandtnerR.W.KaulH.-P.2016bConcentrations and uptake of micronutrients by oat and pea in intercrops in response to N fertilization and sowing ratio6711510.1515/boku-2016-0001Search in Google Scholar
Neugschwandtner, R.W. and H.-P. Kaul (2015): Nitrogen uptake, use and utilization efficiency by oat-pea intercrops. Field Crops Research 179, 113–119.NeugschwandtnerR.W.KaulH.-P.2015Nitrogen uptake, use and utilization efficiency by oat-pea intercrops17911311910.1016/j.fcr.2015.04.018Search in Google Scholar
Neugschwandtner, R.W. and H.-P. Kaul (2014): Sowing ratio and N fertilization affect yield and yield components of oat and pea in intercrops. Field Crops Research 155, 159–163.NeugschwandtnerR.W.KaulH.-P.2014Sowing ratio and N fertilization affect yield and yield components of oat and pea in intercrops15515916310.1016/j.fcr.2013.09.010Search in Google Scholar
Qin, R.J., Stamp, P. and W. Richner (2004): Impact of till-age on root systems of winter wheat. Agronomy Journal 96, 1523–1530.QinR.J.StampP.RichnerW.2004Impact of till-age on root systems of winter wheat961523153010.2134/agronj2004.1523Search in Google Scholar
Qaderii, M., Martel, A. and S. Dixon (2019): Environmental factors influence plant vascular system and water regulation. Plants 65, 1–23.QaderiiM.MartelA.DixonS.2019Environmental factors influence plant vascular system and water regulation6512310.3390/plants8030065647372730875945Search in Google Scholar
Rudnicki, F. and D. Jaskulski (2006): Evaluation of the competitive effect between crops and weeds in field. Acta Scientarum Polonaru, Agricultura 5, 45–52.RudnickiF.JaskulskiD.2006Evaluation of the competitive effect between crops and weeds in field54552Search in Google Scholar
Scherer, H.W., Pacyna, S., Manthey, N. and M. Schulz (2006): Sulphur supply to peas (Pisum sativum L.) influences symbiotic N2 fixation. Plant Soil Environment 52, 72–77.SchererH.W.PacynaS.MantheyN.SchulzM.2006Sulphur supply to peas (Pisum sativum L.) influences symbiotic N2 fixation52727710.17221/3348-PSESearch in Google Scholar
Smucker, A.J.M. (1993): Soil environmental modifications of root dynamics and measurement. Annual Review of Phytopathology 31, 191–216.SmuckerA.J.M.1993Soil environmental modifications of root dynamics and measurement3119121610.1146/annurev.py.31.090193.001203Search in Google Scholar
Songsri, P., Vorasoot, N., Jogloy, S., Kesmala, T., Akkasaeng, C., Patanothai, A. and C.C. Holbrook (2009): Evaluation of yield and reproductive efficiency in peanut (Arachis hypogaea L.) under different available soil water. Asian Journal of Plant Sciences 8, 465–473.SongsriP.VorasootN.JogloyS.KesmalaT.AkkasaengC.PatanothaiA.HolbrookC.C.2009Evaluation of yield and reproductive efficiency in peanut (Arachis hypogaea L.) under different available soil water846547310.3923/ajps.2009.465.473Search in Google Scholar
Tron, S. Bodner, G., Laio, F., Ridolfi, L. and D. Leitner (2013): Can diversity in root architecture explain plant water use efficiency? A modeling study. Ecological Modelling 312, 200–210.TronS.BodnerG.LaioF.RidolfiL.LeitnerD.2013Can diversity in root architecture explain plant water use efficiency? A modeling study31220021010.1016/j.ecolmodel.2015.05.028456706026412932Search in Google Scholar
Weinbaum, S. (1988): Foliar nutrition of fruit trees. In: Neumann, P.M. (Ed.): Plant growth and leaf-applied chemicals. CRC Press, Boca Raton, Florida, pp. 81–100.WeinbaumS.1988Foliar nutrition of fruit treesIn:NeumannP.M.(Ed.):CRC PressBoca Raton, Florida8110010.1201/9781351075732-6Search in Google Scholar
Wójcik P. (2004): Uptake of mineral nutrients from foliar fertilization. Journal of Fruit and Ornamental Plant Research 12, 201–218.WójcikP.2004Uptake of mineral nutrients from foliar fertilization12201218Search in Google Scholar
Zając, T., Klimek-Kopyra, A., Mańkowski, J., Oleksy, A. and P. Micek (2018): A comparison of the chemical composition of the seeds of linseed and pea cultivars grown in pure stand or mixture. Journal of Natural Fibers 18, 1–9.ZającT.Klimek-KopyraA.MańkowskiJ.OleksyA.MicekP.2018A comparison of the chemical composition of the seeds of linseed and pea cultivars grown in pure stand or mixture181910.1080/15440478.2017.1423253Search in Google Scholar
Zając, T., Klimek-Kopyra, A., Oleksy, A., Stokłosa, A., Kulig, B. (2012): Morphological-developmental reaction and productivity of plants and canopy of semileafless pea (Pisum sativum L.) after seed vaccination with Rhizobium and foliar micronutrient fertilization. Journal of Applied Botany and Food Quality 85, 188–197.ZającT.Klimek-KopyraA.OleksyA.StokłosaA.KuligB.2012Morphological-developmental reaction and productivity of plants and canopy of semileafless pea (Pisum sativum L.) after seed vaccination with Rhizobium and foliar micronutrient fertilization85188197Search in Google Scholar
Zając, T., Oleksy, A., Stokłosa, A., Klimek-Kopyra, A. and B. Kulig (2013): The development competition and productivity of linseed and pea-cultivars grown in a pure sowing or in a mixture. European Journal of Agronomy 44, 22–31.ZającT.OleksyA.StokłosaA.Klimek-KopyraA.KuligB.2013The development competition and productivity of linseed and pea-cultivars grown in a pure sowing or in a mixture44223110.1016/j.eja.2012.08.001Search in Google Scholar
Zhao, C., Fan, F., Coulter, J.E., Yin, W., Hu, F., Yu, A., Fan, H. and Q. Chai (2020): High maize density alleviates the inhibitory effect of soil nitrogen on intercropped pea. Agronomy, 10, 248.ZhaoC.FanF.CoulterJ.E.YinW.HuF.YuA.FanH.ChaiQ.2020High maize density alleviates the inhibitory effect of soil nitrogen on intercropped pea1024810.3390/agronomy10020248Search in Google Scholar
Zhao, F.J., Wood, A.P. and S.P. McGrath (1999): Effects of sulphur nutrition on growth and nitrogen fixation of pea (Pisum sativum L.). Plant and Soil 212, 209–219.ZhaoF.J.WoodA.P.McGrathS.P.1999Effects of sulphur nutrition on growth and nitrogen fixation of pea (Pisum sativum L.)21220921910.1023/A:1004618303445Search in Google Scholar