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Impact of Resource Conserving Technologies (RCT) on soil physical properties and rapeseed (Brassica napus L.) yield in irrigated agriculture areas of the South-Eastern Kazakhstan

Yıl 2019, Cilt: 8 Sayı: 1, 83 - 93, 01.01.2019
https://doi.org/10.18393/ejss.510686

Öz

The
aim of this resarch was to determine the effects of Resource Conserving Technologies (RCT) system and Conventional Tillage
(CT) on soil physical properties and
Rapeseed (Brassica
napus
L.) yield in irrigated agriculture areas of the South-Eastern Kazakhstan. The experimental
study was conducted according to a radomized block design with three
replications between 2015 and 2018. The CT system had maximum anthropogenic
effect and caused loosening of arable soil layer, had the lowest bulk density
values (1.19 -1.21 g/cm3).
The CT had a bulk density ranged between 1.13 and 1.30 g/cm3. With a
RCT tillage, the bulk density during the growing season of rape was located in
optimal density zone between 1.20 and 1.22 g/cm3.
The
RCT of rapeseed provided the greatest efficiency, where the yield of rapeseed
increased by 13.3% and 22.0%.
It has been revealed that with RCT of rapeseed
cultivation, minimum technology (Mini-till) ensures sustainability of soil
environment and its ecological condition, improves structure and raises water
resistance of agroecosystem’s soil aggregate. In turn the structure of soil’s
arable layer stabilizes with optimal soil density, which contributes to normal
growth and development of rapeseed.  It
is proved that minimal technology of tillage is the leading agricultural
practice ensuring preservation and improvement of qualitative and quantitative
indicators of soil resource and productivity of oilseed rape.

Kaynakça

  • Abiven, S., Menasseri, S., Angers, D.A., Leterme, P., 2008. A model to predict soil aggregate stability dynamics following organic residue incorporation under field conditions. Soil Science Society of America Journal 72(1); 119-125.
  • Acar, M., Celik, I., Günal, H., 2018. Effects of long-term tillage systems on aggregate-associated organic carbon in the eastern Mediterranean region of Turkey. Eurasian Journal of Soil Science 7(1): 51-58.
  • Arshad, M.A., Franzluebber, A.J., Azooz, R.H., 1999, Components of surface soil structure under conventional and no-tillage in Northwestern Canada. Soil and Tillage Research 53(1): 41-47.
  • Bessam, F., Mrabet, R., 2003. Long-term changes in soil organic matter under conventional and no-tillage systems in semiarid Morocco. Soil Use and Management 19(2):139–143.
  • Bronik, C.J., Lal, R., 2005. Manuring and rotation effects on soil organic carbon concentration for different aggregate size fractions on two soil in northeastern Ohio, USA. Soil and Tillage Research 81(2); 239-252.
  • Carpenter, S.R., DeFries, R., Dietz, T., Mooney, H.A., Polasky, S., Reid, W.V., Scholes, R.J., 2006. Millennium Ecosystem Assessment: Research Needs. Science 314(5797): 257-258.
  • Chauhan, B.S., Singh, R.G., Mahajan, G., 2012. Ecology and management of weeds under conservation agriculture: a review. Crop Protection 38:57–65.
  • Dao, T.H., 1996. Tillage system and crop residue effects on surface compaction of a Paleustoll. Agronomy Journal 88(2): 141-148.
  • Duru, M., Therond, O., Martin, G., Martin-Clouaire, R., Magne, M.A., Justes, E., Journet, E.P., Aubertot, J.N., Savary, S., Bergez, J.E., Sarthou, J.P., 2015. How to implement biodiversity-based agriculture to enhance ecosystem services: a review. Agronomy for Sustainable Development 35(4): 1259–1281.
  • Eltz, F.L.F., Peixoto, R.T.G., Jaster, F., 1989. Efeito de sistemas de preparo do solo nas propriedades fı´sicas e quı´micas de um Latossolo Bruno A´ lico. Revista Brasileira de Cieˆncia do Solo 13: 259–267.
  • FAO, 2013. Conservation Agriculture in Central Asia: Status, Policy, Institutional Support and Strategic Framework for its Promotion.
  • FAO Sub-Regional Office for Central Asia (FAO-SEC) Ankara, Turkey. 60p. Available at [Access date: 18.04.2018]: http://www.fao.org/docrep/019/i3275e/i3275e.pdf
  • Franzluebbers, A.J., 2002. Soil organic matter stratification ratio as an indicator of soil quality. Soil and Tillage Research 66(2): 95–106.
  • Freitas, P.L., Zobel, R.W., Snyder, V.A., 1999. Corn root growth in soil columns with artificially constructed aggregates. Crop Science 39 (3): 725–730.
  • Gomiero, T., 2016. Soil Degradation, Land Scarcity and Food Security: Reviewing a Complex Challenge. Sustainability 8, 281.
  • Hevia, G.G., Mendez, M., Buschiazzo, D.E., 2007. Tillage affects soil aggregation parameters linked with wind erosion. Geoderma 140(1–2): 90–96.
  • 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(1491): 543–555.
  • Jones, B.J.Jr., 2001. Laboratory guide for conducting soil tests and plant analysis. CRC Press. New York, USA.
  • Kachinsky, N.A., 1958. Mechanical and microagregate composition of soils; methods for study. USSR Academy of Science Publishers, Moscow, Russia. 177p. [in Russian].
  • Kalhoro, S.A., Xu, X,. Chen, W., Hua, R., Raza, S., Ding., 2017. Effects of different land-use systems on soil aggregates: A case study of the Loess Plateau (Northern China). Sustainability 9, 1349.
  • Kanwar, R.S., 1989. Effect of tillage system on the variability of soil water tensions and water content. Transactions of the ASAE 32(2): 605-610.
  • Kasper, M., Buchan G.D., Mentler, A., Blum, W.E.H., 2009. Influence of soil tillage systems on aggregate stability and the distribution of C and N in different aggregate fraction. Soil and Tillage Research 105(2): 192-199.
  • Kassam, A., Friedrich, T., Shaxson, F., Pretty, J., 2009. The spread of conservation agriculture: justification, sustainability and uptake. International Journal of Agricultural Sustainability 7(4): 292–320.
  • Martens, D.A., 2000. Management and crop residue influence soil aggregate stability. Journal of Environmental Quality 29(3): 723-727. Meek, B.D., Rechel, E.A., Cater, L.M., DeTar, W.R., Urie, A.L., 1992. Infiltration rate of a sandy loam soil: Effets of traffic, tillage, and plant roots. Soil Science Society of America Journal 56(3): 908-913.
  • Mrabet, R., Ibno-Namr, K., Bessam, F., Saber, N., 2001. Soil chemical quality changes and implications for fertilizer management after 11 years of no-tillage wheat production systems in semiarid Morocco. Land Degradation and Development 12(6): 505–517.
  • Nyamangara, J., Piha, M.I., Kirchmann, H., 1999. Interactions of aerobically decomposed cattle manure and nitrogen fertilizer applied to soil. Nutrient Cycling in Agroecosystems 54(2); 183-188.
  • Palm, C., Blanco-Canqui, H., DeClerck, F., Gatere, L., Grace, P., 2013. Conservation agriculture and ecosystems services: an overview. Agriculture, Ecosystems & Environment 187: 87–105.
  • Roscoe, R., Buurman, P., 2003. Tillage effects on soil organic matter in density fractions of a Cerrado Oxisol. Soil and Tillage Research 70(2): 107-119.
  • Rowell, D., 1994. Soil Science: Methods and Applications. Longman Group UK Limited, UK. 350p.
  • Ruiz-Colmenero, M., Bienes, R., Eldridge, D.J., Marques, M.J., 2013. Vegetation cover reduces erosion and enhances soil organic carbon in a vineyard in the central Spain. Catena 104:153–160.
  • Saparov, A., 2014. Soil Resources of the Republic of Kazakhstan: Current Status, Problems and Solutions. In: Novel Measurement and Assessment Tools for Monitoring and Management of Land and Water Resources in Agricultural Landscapes of Central Asia. L. Mueller, A. Saparov, Lischeid, G., (Eds.). Environmental Science and Engineering. Springer International Publishing. Switzerland. pp.61-73.
  • Sapkoda, T.B., Jat, M.L., Jat, R.K., Kapoor, P., Stirling, C., 2016. Yield estimation of food and non-food crops in smallholder production systems. In: Rosenstock, T.S., Rufino, M.C., Butterbach-Bahl, K., Wollenberg, L., Richards, M., (Eds.) Methods for measuring greenhouse gas balances and evaluating mitigation options in smallholder agriculture. Springer. pp.163-174.
  • Savinov N.O., 1936. Soil Physics. Sielchozgiz Press, Moscow, Russia. [in Russian].
  • Shaver, T., Peterson, G., Ahuja, L., Westfall, D., Sherrod, L., Dunn, G., 2002. Surface soil properties after twelve years of dryland no-till management. Soil Science Society of America Journal 66(4): 1296-1303.
  • Silva, I.F., Mielniczuk, J., 1998. Aggregate stability as affected by cropping systems and soil characteristics. Revista Brasileira de Ciência do Solo 22(2): 311-317. Telles, T.S., Guimarães M.F., Dechen, S.C.F., 2011. The costs of soil erosion. Revista Brasileira de Ciência do Solo 35(2): 287-298.
  • Tisdall, J.M.. Oades, J.M., 1982. Organic carbon and water stable aggregates in soils. European Journal of Soil Science 33(2): 141-163.
  • Townsend, T.J., Ramsden, S.J., Wilson, P., 2016. Analysing reduced tillage practices within a bio-economic modelling framework. Agricultural Systems 146: 91–102.
  • Traoré, O., Groleau-Renaud, V., Plantureux, S., Tubeleh, A., Boeuf-Tremblay, V., 2000. Effect of root mucilage and modelled root exudates on soil structure. European Journal of Soil Science 51(4); 575-581.
  • Whalen, J.K., Chang, C., 2002. Macroaggregate characteristics in cultivated soils after 25 annual manure applications. Soil Science Society of America Journal 66(5): 1637-1647.
  • Xu, D., Mermoud, A., 2001. Topsoil properties as affected by tillage practices in North China. Soil and Tillage Research 60(1-2): 11-19.
Yıl 2019, Cilt: 8 Sayı: 1, 83 - 93, 01.01.2019
https://doi.org/10.18393/ejss.510686

Öz

Kaynakça

  • Abiven, S., Menasseri, S., Angers, D.A., Leterme, P., 2008. A model to predict soil aggregate stability dynamics following organic residue incorporation under field conditions. Soil Science Society of America Journal 72(1); 119-125.
  • Acar, M., Celik, I., Günal, H., 2018. Effects of long-term tillage systems on aggregate-associated organic carbon in the eastern Mediterranean region of Turkey. Eurasian Journal of Soil Science 7(1): 51-58.
  • Arshad, M.A., Franzluebber, A.J., Azooz, R.H., 1999, Components of surface soil structure under conventional and no-tillage in Northwestern Canada. Soil and Tillage Research 53(1): 41-47.
  • Bessam, F., Mrabet, R., 2003. Long-term changes in soil organic matter under conventional and no-tillage systems in semiarid Morocco. Soil Use and Management 19(2):139–143.
  • Bronik, C.J., Lal, R., 2005. Manuring and rotation effects on soil organic carbon concentration for different aggregate size fractions on two soil in northeastern Ohio, USA. Soil and Tillage Research 81(2); 239-252.
  • Carpenter, S.R., DeFries, R., Dietz, T., Mooney, H.A., Polasky, S., Reid, W.V., Scholes, R.J., 2006. Millennium Ecosystem Assessment: Research Needs. Science 314(5797): 257-258.
  • Chauhan, B.S., Singh, R.G., Mahajan, G., 2012. Ecology and management of weeds under conservation agriculture: a review. Crop Protection 38:57–65.
  • Dao, T.H., 1996. Tillage system and crop residue effects on surface compaction of a Paleustoll. Agronomy Journal 88(2): 141-148.
  • Duru, M., Therond, O., Martin, G., Martin-Clouaire, R., Magne, M.A., Justes, E., Journet, E.P., Aubertot, J.N., Savary, S., Bergez, J.E., Sarthou, J.P., 2015. How to implement biodiversity-based agriculture to enhance ecosystem services: a review. Agronomy for Sustainable Development 35(4): 1259–1281.
  • Eltz, F.L.F., Peixoto, R.T.G., Jaster, F., 1989. Efeito de sistemas de preparo do solo nas propriedades fı´sicas e quı´micas de um Latossolo Bruno A´ lico. Revista Brasileira de Cieˆncia do Solo 13: 259–267.
  • FAO, 2013. Conservation Agriculture in Central Asia: Status, Policy, Institutional Support and Strategic Framework for its Promotion.
  • FAO Sub-Regional Office for Central Asia (FAO-SEC) Ankara, Turkey. 60p. Available at [Access date: 18.04.2018]: http://www.fao.org/docrep/019/i3275e/i3275e.pdf
  • Franzluebbers, A.J., 2002. Soil organic matter stratification ratio as an indicator of soil quality. Soil and Tillage Research 66(2): 95–106.
  • Freitas, P.L., Zobel, R.W., Snyder, V.A., 1999. Corn root growth in soil columns with artificially constructed aggregates. Crop Science 39 (3): 725–730.
  • Gomiero, T., 2016. Soil Degradation, Land Scarcity and Food Security: Reviewing a Complex Challenge. Sustainability 8, 281.
  • Hevia, G.G., Mendez, M., Buschiazzo, D.E., 2007. Tillage affects soil aggregation parameters linked with wind erosion. Geoderma 140(1–2): 90–96.
  • 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(1491): 543–555.
  • Jones, B.J.Jr., 2001. Laboratory guide for conducting soil tests and plant analysis. CRC Press. New York, USA.
  • Kachinsky, N.A., 1958. Mechanical and microagregate composition of soils; methods for study. USSR Academy of Science Publishers, Moscow, Russia. 177p. [in Russian].
  • Kalhoro, S.A., Xu, X,. Chen, W., Hua, R., Raza, S., Ding., 2017. Effects of different land-use systems on soil aggregates: A case study of the Loess Plateau (Northern China). Sustainability 9, 1349.
  • Kanwar, R.S., 1989. Effect of tillage system on the variability of soil water tensions and water content. Transactions of the ASAE 32(2): 605-610.
  • Kasper, M., Buchan G.D., Mentler, A., Blum, W.E.H., 2009. Influence of soil tillage systems on aggregate stability and the distribution of C and N in different aggregate fraction. Soil and Tillage Research 105(2): 192-199.
  • Kassam, A., Friedrich, T., Shaxson, F., Pretty, J., 2009. The spread of conservation agriculture: justification, sustainability and uptake. International Journal of Agricultural Sustainability 7(4): 292–320.
  • Martens, D.A., 2000. Management and crop residue influence soil aggregate stability. Journal of Environmental Quality 29(3): 723-727. Meek, B.D., Rechel, E.A., Cater, L.M., DeTar, W.R., Urie, A.L., 1992. Infiltration rate of a sandy loam soil: Effets of traffic, tillage, and plant roots. Soil Science Society of America Journal 56(3): 908-913.
  • Mrabet, R., Ibno-Namr, K., Bessam, F., Saber, N., 2001. Soil chemical quality changes and implications for fertilizer management after 11 years of no-tillage wheat production systems in semiarid Morocco. Land Degradation and Development 12(6): 505–517.
  • Nyamangara, J., Piha, M.I., Kirchmann, H., 1999. Interactions of aerobically decomposed cattle manure and nitrogen fertilizer applied to soil. Nutrient Cycling in Agroecosystems 54(2); 183-188.
  • Palm, C., Blanco-Canqui, H., DeClerck, F., Gatere, L., Grace, P., 2013. Conservation agriculture and ecosystems services: an overview. Agriculture, Ecosystems & Environment 187: 87–105.
  • Roscoe, R., Buurman, P., 2003. Tillage effects on soil organic matter in density fractions of a Cerrado Oxisol. Soil and Tillage Research 70(2): 107-119.
  • Rowell, D., 1994. Soil Science: Methods and Applications. Longman Group UK Limited, UK. 350p.
  • Ruiz-Colmenero, M., Bienes, R., Eldridge, D.J., Marques, M.J., 2013. Vegetation cover reduces erosion and enhances soil organic carbon in a vineyard in the central Spain. Catena 104:153–160.
  • Saparov, A., 2014. Soil Resources of the Republic of Kazakhstan: Current Status, Problems and Solutions. In: Novel Measurement and Assessment Tools for Monitoring and Management of Land and Water Resources in Agricultural Landscapes of Central Asia. L. Mueller, A. Saparov, Lischeid, G., (Eds.). Environmental Science and Engineering. Springer International Publishing. Switzerland. pp.61-73.
  • Sapkoda, T.B., Jat, M.L., Jat, R.K., Kapoor, P., Stirling, C., 2016. Yield estimation of food and non-food crops in smallholder production systems. In: Rosenstock, T.S., Rufino, M.C., Butterbach-Bahl, K., Wollenberg, L., Richards, M., (Eds.) Methods for measuring greenhouse gas balances and evaluating mitigation options in smallholder agriculture. Springer. pp.163-174.
  • Savinov N.O., 1936. Soil Physics. Sielchozgiz Press, Moscow, Russia. [in Russian].
  • Shaver, T., Peterson, G., Ahuja, L., Westfall, D., Sherrod, L., Dunn, G., 2002. Surface soil properties after twelve years of dryland no-till management. Soil Science Society of America Journal 66(4): 1296-1303.
  • Silva, I.F., Mielniczuk, J., 1998. Aggregate stability as affected by cropping systems and soil characteristics. Revista Brasileira de Ciência do Solo 22(2): 311-317. Telles, T.S., Guimarães M.F., Dechen, S.C.F., 2011. The costs of soil erosion. Revista Brasileira de Ciência do Solo 35(2): 287-298.
  • Tisdall, J.M.. Oades, J.M., 1982. Organic carbon and water stable aggregates in soils. European Journal of Soil Science 33(2): 141-163.
  • Townsend, T.J., Ramsden, S.J., Wilson, P., 2016. Analysing reduced tillage practices within a bio-economic modelling framework. Agricultural Systems 146: 91–102.
  • Traoré, O., Groleau-Renaud, V., Plantureux, S., Tubeleh, A., Boeuf-Tremblay, V., 2000. Effect of root mucilage and modelled root exudates on soil structure. European Journal of Soil Science 51(4); 575-581.
  • Whalen, J.K., Chang, C., 2002. Macroaggregate characteristics in cultivated soils after 25 annual manure applications. Soil Science Society of America Journal 66(5): 1637-1647.
  • Xu, D., Mermoud, A., 2001. Topsoil properties as affected by tillage practices in North China. Soil and Tillage Research 60(1-2): 11-19.
Toplam 40 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Bölüm Articles
Yazarlar

Naziya Suleimenova Bu kişi benim

Baglan Makhamedova Bu kişi benim

Gulnar Orynbasarova Bu kişi benim

Dastan Kalykov Bu kişi benim

Zhainagul Yertayeva Bu kişi benim

Yayımlanma Tarihi 1 Ocak 2019
Yayımlandığı Sayı Yıl 2019 Cilt: 8 Sayı: 1

Kaynak Göster

APA Suleimenova, N., Makhamedova, B., Orynbasarova, G., Kalykov, D., vd. (2019). Impact of Resource Conserving Technologies (RCT) on soil physical properties and rapeseed (Brassica napus L.) yield in irrigated agriculture areas of the South-Eastern Kazakhstan. Eurasian Journal of Soil Science, 8(1), 83-93. https://doi.org/10.18393/ejss.510686