This work is licensed under the Creative Commons Attribution 4.0 International License.
Andrássy, I. 2005. Free-living nematodes of Hungary: Nematoda errantia Hungarian Natural History Museum, Budapest.AndrássyI.2005.Hungarian Natural History Museum,Budapest.Search in Google Scholar
Bongers, T. 1990. The maturity index: an ecological measure of environmental disturbance based on nematode species composition. Oecologia 83:14–19.BongersT.1990.The maturity index: an ecological measure of environmental disturbance based on nematode species composition.83:14–19.10.1007/BF00324627Search in Google Scholar
Bongers, T. and Ferris, H. 1999. Nematode community structure as a bioindicator in environmental monitoring. Trends in Ecology and Evolution 14:224–228.BongersT. and FerrisH.1999.Nematode community structure as a bioindicator in environmental monitoring.14:224–228.10.1016/S0169-5347(98)01583-3Search in Google Scholar
Brmež, M., Puškarić, J., Siber, T., Raspudić, E., Grubišić, D. and Popović, B. 2018. Influence of liquid chicken manure preparation on soil health and agrochemical soil properties. Poljoprivreda 24:3–9.BrmežM.PuškarićJ.SiberT.RaspudićE.GrubišićD. and PopovićB.2018.Influence of liquid chicken manure preparation on soil health and agrochemical soil properties.24:3–9.10.18047/poljo.24.1.1Search in Google Scholar
Caixeta, L. B., Pereira, T. J., Castañeda, E. N. and Cares, J. E. 2016. Nematode communities as indicators of the status of a soil ecosystem influenced by mining practices in Brazil. Nematology 18:265–276.CaixetaL. B.PereiraT. J.CastañedaE. N. and CaresJ. E.2016.Nematode communities as indicators of the status of a soil ecosystem influenced by mining practices in Brazil.18:265–276.10.1163/15685411-00002958Search in Google Scholar
Cares, J. E. and Huang, S. P. 2008. “Comunidades de nematoides de solo sob diferentes sistemas na Amazônia e Cerrados Brasileiros”, In Moreira, F. M. S., Siqueira, J. O. and Brussardi, L. (Eds), Biodiversidade do solo em ecossistemas brasileiros Universidade Federal de Lavras, Lavras (MG), pp. 409–444.CaresJ. E. and HuangS. P.2008. “Comunidades de nematoides de solo sob diferentes sistemas na Amazônia e Cerrados Brasileiros”, InMoreiraF. M. S.SiqueiraJ. O. and BrussardiL. (Eds),Universidade Federal de Lavras,Lavras (MG), pp.409–444.Search in Google Scholar
Carron, M. P., Pierrat, M., Snoeck, D., Villenave, C., Ribeyre, F., Marichal, R. and Caliman, J. P. 2015. Temporal variability in soil quality after organic residue application in mature oil palm plantations. Soil Research 53:205–215.CarronM. P.PierratM.SnoeckD.VillenaveC.RibeyreF.MarichalR. and CalimanJ. P.2015.Temporal variability in soil quality after organic residue application in mature oil palm plantations.53:205–215.10.1071/SR14249Search in Google Scholar
Chaves, E. J., Echeverria, M. M. and Torres, M. S. 1995. Clave para la determinar géneros de Nematodes del suelo de la República Argentina Universidade Nacional de Mar del Plata, Mar del Plata.ChavesE. J.EcheverriaM. M. and TorresM. S.1995.Universidade Nacional de Mar del Plata,Mar del Plata.Search in Google Scholar
Donagema, G. K., Campos, D. V. B., Calderano, S. B., Teixeira, W. G. and Viana, J. H. M. 2011. Manual de métodos de análise de solos. 2.ed. rev. Rio de Janeiro: Embrapa Solos. 230p. (Embrapa Solos. Documentos, 132).DonagemaG. K.CamposD. V. B.CalderanoS. B.TeixeiraW. G. and VianaJ. H. M.2011.Search in Google Scholar
DuPont, S. T., Ferris, H. and Van Horn, M. 2009. Effects of cover crop quality and quantity on nematode-based soil food webs and nutrient cycling. Applied Soil Ecology 41:157–167.DuPontS. T.FerrisH. and Van HornM.2009.Effects of cover crop quality and quantity on nematode-based soil food webs and nutrient cycling.41:157–167.10.1016/j.apsoil.2008.10.004Search in Google Scholar
Falkowski, T. B., Douterlungne, D., Chankin, A. and Diemont, S. A. 2019. Effects of five Lacandon Maya agroforestry trees on soil nematode trophic group composition. Agroforestry Systems 93:2121–2133.FalkowskiT. B.DouterlungneD.ChankinA. and DiemontS. A.2019.Effects of five Lacandon Maya agroforestry trees on soil nematode trophic group composition.93:2121–2133.10.1007/s10457-018-0330-7Search in Google Scholar
Ferris, H. 2010. Contribution of nematodes to the structure and function of the soil food web. Journal of Nematology 42:1–63.FerrisH.2010.Contribution of nematodes to the structure and function of the soil food web.42:1–63.Search in Google Scholar
Ferris, H. R. C., Venette, H. R. and Van Der Meulen, S. S. L. 1998. Nitrogen mineralization by bacterial-feeding nematodes: verification and measurement. Plant and Soil 203:159–171.FerrisH. R. C.VenetteH. R. and Van Der MeulenS. S. L.1998.Nitrogen mineralization by bacterial-feeding nematodes: verification and measurement.203:159–171.10.1023/A:1004318318307Search in Google Scholar
Franco-Navarro, F. and Godinez-Vidal, D. 2017. Soil nematodes associated with different land uses in the Los Tuxtlas Biosphere Reserve, Veracruz, Mexico. Revista Mexicana de Biodiversidad 88:136–145.Franco-NavarroF. and Godinez-VidalD.2017.Soil nematodes associated with different land uses in the Los Tuxtlas Biosphere Reserve, Veracruz, Mexico.88:136–145.10.1016/j.rmb.2017.01.002Search in Google Scholar
Gomes, L. C., Cardoso, I. M., Sá Mendonça, E., Fernandes, R. B. A., Lopes, V. S. and Oliveira, T. S. 2016. Trees modify the dynamics of soil CO2 efflux in coffee agroforestry systems. Agricultural and Forest Meteorology 224:30–39.GomesL. C.CardosoI. M.Sá MendonçaE.FernandesR. B. A.LopesV. S. and OliveiraT. S.2016.Trees modify the dynamics of soil CO2 efflux in coffee agroforestry systems.224:30–39.10.1016/j.agrformet.2016.05.001Search in Google Scholar
Grabau, Z. J., Bao, Y., Vetsch, J. A. and Chen, S. 2019. Swine manure application enriches the soil food web in corn and soybean production. Journal of Nematology 51:1–■.GrabauZ. J.BaoY.VetschJ. A. and ChenS.2019.Swine manure application enriches the soil food web in corn and soybean production.51:1–■.10.21307/jofnem-2019-014692964831088026Search in Google Scholar
Hu, C., Wang, X. H. and Qi, Y. C. 2014. Characteristics of soil nematode communities under two different land use systems. Biological Agriculture e Horticulture 30:119–130.HuC.WangX. H. and QiY. C.2014.Characteristics of soil nematode communities under two different land use systems.30:119–130.10.1080/01448765.2014.880373Search in Google Scholar
Huising, E. J., Cares, J. E., Louzada, J. N., Zanetti, R., Moreira, F. M. S., Susilo, F. X., Konat, S., Huang, S. P., Van Noordwijk, M. and Coe, R. D. 2008. “Sampling strategy and design to evaluate below-ground biodiversity”, In Moreira, F. M. S., Huising, E. J. and Bignell, D. E. (Eds), Sampling and Characterization of Belowground Biodiversity Earthscan Publishing, London, pp. 17–41.HuisingE. J.CaresJ. E.LouzadaJ. N.ZanettiR.MoreiraF. M. S.SusiloF. X.KonatS.HuangS. P.Van NoordwijkM. and CoeR. D.2008. “Sampling strategy and design to evaluate below-ground biodiversity”, InMoreiraF. M. S.HuisingE. J. and BignellD. E. (Eds),Earthscan Publishing,London, pp.17–41.Search in Google Scholar
Jackson, L. E., Pulleman, M. M., Brussaard, L., Bawa, K. S., Brown, G. G., Cardoso, I. M. and Ouédraogo, E. 2012. Social-ecological and regional adaptation of agrobiodiversity management across a global set of research regions. Global Environmental Change 22:623–639.JacksonL. E.PullemanM. M.BrussaardL.BawaK. S.BrownG. G.CardosoI. M. and OuédraogoE.2012.Social-ecological and regional adaptation of agrobiodiversity management across a global set of research regions.22:623–639.10.1016/j.gloenvcha.2012.05.002Search in Google Scholar
Jairajpuri, M. S. and Wasim, A. 1992. Dorylaimida: Free-living, predaceous and plant-parasitic nematodes Brill Publishing, New Delhi.JairajpuriM. S. and WasimA.1992.Brill Publishing,New Delhi.Search in Google Scholar
Jannoura, R., Joergensen, R. G. and Bruns, C. 2014. Organic fertilizer effects on growth, crop yield, and soil microbial biomass indices in sole and intercropped peas and oats under organic farming conditions. European Journal Agronomy 52:259–270.JannouraR.JoergensenR. G. and BrunsC.2014.Organic fertilizer effects on growth, crop yield, and soil microbial biomass indices in sole and intercropped peas and oats under organic farming conditions.52:259–270.10.1016/j.eja.2013.09.001Search in Google Scholar
Jenkins, W. R. A. 1964. Rapid centrifugal-flotation technique for separating nematodes from soil. Plant Disease Reporter 4:462.JenkinsW. R. A.1964.Rapid centrifugal-flotation technique for separating nematodes from soil.4:462.Search in Google Scholar
Jiang, C., Sun, B., Li, H. and Jiang, Y. 2013. Determinants for seasonal change of nematode community composition under long-term application of organic manure in an acid soil in subtropical China. European Journal of Soil Biology 55:91–99.JiangC.SunB.LiH. and JiangY.2013.Determinants for seasonal change of nematode community composition under long-term application of organic manure in an acid soil in subtropical China.55:91–99.10.1016/j.ejsobi.2012.11.003Search in Google Scholar
Liu, T., Joann, K. W., Shen, Q. and Li, H. 2016. Increase in soil nematode abundance due to fertilization was consistent across moisture regimes in a paddy rice-upland wheat system. European Journal of Soil Biology 72:21–26.LiuT.JoannK. W.ShenQ. and LiH.2016.Increase in soil nematode abundance due to fertilization was consistent across moisture regimes in a paddy rice-upland wheat system.72:21–26.10.1016/j.ejsobi.2015.12.001Search in Google Scholar
Marinho, E. B., Oliveira, A. L., Zandonadi, D. B., Benedito, L. E. C., Souza, R. B., Figueiredo, C. C. and Busato, J. G. 2014. Organic matter pools and nutrient cycling in different coffee production systems in the Brazilian Cerrado. Agroforestry Systems 88:767–778.MarinhoE. B.OliveiraA. L.ZandonadiD. B.BeneditoL. E. C.SouzaR. B.FigueiredoC. C. and BusatoJ. G.2014.Organic matter pools and nutrient cycling in different coffee production systems in the Brazilian Cerrado.88:767–778.10.1007/s10457-014-9723-4Search in Google Scholar
McQueen, J. P. and Treonis, A. M. 2020. Cacao agroforestry in Belize: effects on soil nematode community structure. Agroforestry Systems 94:1123–1132.McQueenJ. P. and TreonisA. M.2020.Cacao agroforestry in Belize: effects on soil nematode community structure.94:1123–1132.10.1007/s10457-019-00477-2Search in Google Scholar
Moço, M. K. S., Gama-Rodrigues, E. F., Gama-Rodrigues, A. C., Machado, R. C. R. and Baligar, V. C. 2009. Soil and litter fauna of cacao agroforestry systems in Bahia, Brazil. Agroforestry Systems 76:127–138.MoçoM. K. S.Gama-RodriguesE. F.Gama-RodriguesA. C.MachadoR. C. R. and BaligarV. C.2009.Soil and litter fauna of cacao agroforestry systems in Bahia, Brazil.76:127–138.10.1007/s10457-008-9178-6Search in Google Scholar
Mulder, C., De Zwart, D., Van Wijnen, H. J., Schouten, A. J. and Breure, A. M. 2003. Observational and simulated evidence of ecological shifts within the soil nematode community of agroecosystems under conventional and organic farming. Functional Ecology 17:516–525.MulderC.De ZwartD.Van WijnenH. J.SchoutenA. J. and BreureA. M.2003.Observational and simulated evidence of ecological shifts within the soil nematode community of agroecosystems under conventional and organic farming.17:516–525.10.1046/j.1365-2435.2003.00755.xSearch in Google Scholar
Neher, D. A. 2001. Role of nematodes in soil health and their use as indicators. Journal of Nematology 33:161–168.NeherD. A.2001.Role of nematodes in soil health and their use as indicators.33:161–168.Search in Google Scholar
Niles, R. K. and Freckman, D. W. 1998. “From the ground up: nematode ecology in bioassessment and ecosystem health”, In Bartels, J. M. (Ed.), Plant and Nematode Interactions, Madison, WI.NilesR. K. and FreckmanD. W.1998. “From the ground up: nematode ecology in bioassessment and ecosystem health”, InBartelsJ. M. (Ed.),,Madison, WI.Search in Google Scholar
Oka, Y. 2010. Mechanisms of nematode suppression by organic soil amendments: a review. Applied Soil Ecology 44:101–115.OkaY.2010.Mechanisms of nematode suppression by organic soil amendments: a review.44:101–115.10.1016/j.apsoil.2009.11.003Search in Google Scholar
Paiva, J. G. A., Carvalho, S. M. F., Magalhães, M. P. and Ribeiro, D. G. 2006. Verniz vitral incolor 500: uma alternativa de meio de montagem economicamente viável. Acta Botanica Brasilica 20:257–264.PaivaJ. G. A.CarvalhoS. M. F.MagalhãesM. P. and RibeiroD. G.2006.Verniz vitral incolor 500: uma alternativa de meio de montagem economicamente viável.20:257–264.10.1590/S0102-33062006000200002Search in Google Scholar
Porazinska, D. L., Duncan, L. W., McSorley, R. and Graham, J. H. 1999. Nematode communities as indicators of status and processes of a soil ecosystem influenced by agricultural management practices. Applied Soil Ecology 13:69–86.PorazinskaD. L.DuncanL. W.McSorleyR. and GrahamJ. H.1999.Nematode communities as indicators of status and processes of a soil ecosystem influenced by agricultural management practices.13:69–86.10.1016/S0929-1393(99)00018-9Search in Google Scholar
Renco, M. and Kovacik, P. 2012. Response of plant parasitic and free living soil nematodes to composted animal manure soil amendments. Journal of Nematology 44:329–336.RencoM. and KovacikP.2012.Response of plant parasitic and free living soil nematodes to composted animal manure soil amendments.44:329–336.Search in Google Scholar
Ritzinger, C. H. S. P., Fancelli, M. and Ritzinger, R. 2010. Nematoides: bioindicadores de sustentabilidade e mudanças edafoclimáticas. Revista Brasileira de Fruticultura 32:1289–1296.RitzingerC. H. S. P.FancelliM. and RitzingerR.2010.Nematoides: bioindicadores de sustentabilidade e mudanças edafoclimáticas.32:1289–1296.10.1590/S0100-29452010000400045Search in Google Scholar
Sãnchez-Moreno, S., Ferris, H., Young-Mathews, A., Culman, S. W. and Jackson, L. E. 2011. Abundance, diversity and connectance of soil food web channels along environmental gradients in an agricultural landscape. Soil Biology & Biochemistry 43:2374–2383.Sãnchez-MorenoS.FerrisH.Young-MathewsA.CulmanS. W. and JacksonL. E.2011.Abundance, diversity and connectance of soil food web channels along environmental gradients in an agricultural landscape.43:2374–2383.10.1016/j.soilbio.2011.07.016Search in Google Scholar
Shannon, C. E. 1948. A mathematical theory of communication. The Bell System Technical Journal 27:379–423.ShannonC. E.1948.A mathematical theory of communication.27:379–423.10.1002/j.1538-7305.1948.tb01338.xSearch in Google Scholar
Siddiqi, M. R. 2000. Tylenchida − Parasites of plants and insects CABI Publishing, St. Albans.SiddiqiM. R.2000.CABI Publishing,St. Albans.10.1079/9780851992020.0000Search in Google Scholar
Simpson, E. H. 1949. Measurement of diversity. Nature 163:688.SimpsonE. H.1949.Measurement of diversity.163:688.10.1038/163688a0Search in Google Scholar
Tomazini, M. D., Ferraz, L. C. C. B. and Monteiro, A. R. 2008. Abundância e diversidade de nematoides em áreas contíguas de vegetação natural e submetidas a diferentes tipos de uso agrícola. Nematologia Brasileira 32:185–193.TomaziniM. D.FerrazL. C. C. B. and MonteiroA. R.2008.Abundância e diversidade de nematoides em áreas contíguas de vegetação natural e submetidas a diferentes tipos de uso agrícola.32:185–193.Search in Google Scholar
Ugarte, C. M., Zaborski, E. R. and Wander, M. M. 2013. Nematode indicators as integrative measures of soil condition in organic cropping systems. Soil Biology and Biochemistry 64:103–113.UgarteC. M.ZaborskiE. R. and WanderM. M.2013.Nematode indicators as integrative measures of soil condition in organic cropping systems.64:103–113.10.1016/j.soilbio.2013.03.035Search in Google Scholar
Van den Hoogen, J., Geisen, S., Wall, D. H., Wardle, D. A., Traunspurger, W., de Goede, R. G. and Bonkowski, M. 2020. A global database of soil nematode abundance and functional group composition. Scientific Data 7:1–8.Van den HoogenJ.GeisenS.WallD. H.WardleD. A.TraunspurgerW.de GoedeR. G. and BonkowskiM.2020.A global database of soil nematode abundance and functional group composition.7:1–8.10.1038/s41597-020-0437-3709902332218461Search in Google Scholar
Wall, D. H., Nielsen, U. N. and Six, J. 2015. Soil biodiversity and human health. Nature 528:69–76.WallD. H.NielsenU. N. and SixJ.2015.Soil biodiversity and human health.528:69–76.10.1038/nature1574426595276Search in Google Scholar
Yeates, G. W., Ferris, H. and Van Der Putten, W. H. 2009. “The role of nematodes in ecosystems”, In Wilson, M. J. T. and Kakouli, D. (Eds), Nematodes as Environmental Indicators 1 CABI Publishing, Wallingford, pp. 1–44.YeatesG. W.FerrisH. and Van Der PuttenW. H.2009. “The role of nematodes in ecosystems”, InWilsonM. J. T. and KakouliD. (Eds),1CABI Publishing,Wallingford, pp.1–44.Search in Google Scholar
Zhang, Z. W., Li, Q., Zhang, H. Y., Hu, Y. Y., Hou, S. L., Wei, H. W., Yin, J. X. and Lu, T. L. 2019. The impacts of nutrient addition and livestock exclosure on the soil nematode community in a degraded grassland. Land Degradation & Development 30:1574–1583.ZhangZ. W.LiQ.ZhangH. Y.HuY. Y.HouS. L.WeiH. W.YinJ. X. and LuT. L.2019.The impacts of nutrient addition and livestock exclosure on the soil nematode community in a degraded grassland.30:1574–1583.10.1002/ldr.3344Search in Google Scholar