Effect of Different Tillage Methods and Cover Crop Types on Yield and Yield Components of Wheat

Document Type : Research Article

Authors

University of Birjand

Abstract

Introduction
Conservation agriculture is an appropriate strategy for maintaining and improving agricultural resources which increases crop production and stability and also provides environmental protection. This attitude contributes to the conservation of natural resources (soil, water, and air) and is one of the most effective ways to overcome the drought crisis, water management and compensation of soil organic matter in arid and semi-arid regions. The practice of zero-tillage decreases the mineralization of organic matter and contributes to the sequestration of organic carbon in the soil. Higher amounts of organic matter in the soil improve soil structure and root growth, water infiltration and retention, and cation exchange capacity. In addition, zero-tillage reduces soil compaction and crop production costs. Cover crops are cultivated to protect the soil from erosion and elements loss by leaching or runoff and also improve the soil moisture and temperature.
Given that South Khorasan farmers still use traditional methods of cultivation of wheat, and cover crops have no place in their farming systems, the aim of this study was to investigate the effect of cover crops types and tillage systems on yield and yield components of wheat in Birjand region.
Materials and Methods
A split plot field experiment was conducted based on randomized complete block design with three replications at the Research Farm of the University of Birjand over the growing season of 2014-2015. The main factor was the type of tillage (no-till, reduced tillage and conventional tillage) and cover crop type (chickling pea (Lathyrus sativus), rocket salad (Eruca sativa), triticale (X Triticosecale witmack), barley (Hordeum vulgaris) and control (no cover crop)) was considered as sub plots. Cover crops were planted on July 2014. Before planting wheat, cover crops were dried through spraying paraquat herbicide using a backpack sprayer at a rate of 3 L ha-1. Then the three tillage treatments were applied, seedbed preparation was carried out and wheat Anfarm- 4 (Bam) was planted. At the end of the growing season, yield and yield components of wheat were measured.
Results and Discussion
The results indicated that the maximum grain yield, biological yield, and spike.m-2 of wheat were observed with the no-till and reduced tillage treatments. The wheat spike weight significantly increased in the treatment of no-tillage compared with conventional tillage treatment. It seems that increased crop yield under no-till and reduced till systems might be owing to the enhancement of the soil nutrient status, reduced weed populations, improved physical health of the soil improved soil water status and increased efficiency of nutrient usage in these systems comparing with the conventional tillage systems.
The main effect of cover crop type showed that incorporating chickling pea and rocket salad resulted in the greatest grain yield, thousand-kernal weight, spike weight, and biological yield of wheat compared to the control (no cover crop) and also chickling pea, rocket salad and barley caused the greatest grain. Spike-1 of wheat compared to the control (no cover crop). Although the use of total cover crops improved yield and yield components in wheat. Chickling pea superiority in many traits was evident in comparison with other cover crops. This superiority could be due to the fact that this plant belongs to the legume family and legumes release higher amounts of nitrogen during decomposition compared to grass species. Grasses produce large amounts of carbon and are slowly decomposed. Although rocket salad does not belong to the legume family, due to having deep roots, it is able to absorb nutrients from the deep soil layers and provide the main plant with these nutrients after its decay.
Conclusions
The results of this study revealed that employment of conservation tillage systems remarkably affected the yield and yield components of wheat, and the greatest positive influence on crop yield and yield components were observed where chickling pea and rocket salad were sown before wheat cultivation. Thus, cover crops and conservation tillage systems can be used as a promising solution for the development of sustainable agriculture and protecting the health of ecosystems.

Keywords

References

1. Abdi, S., Tajbakhsh, M., Abdollahi Mandulakani, B., and Rasouli Sadaghiani, M. H. 2013. Effect of green manure on the soil organic matter and nitrogen. Journals of Agronomy Science 7: 41-52. (in Persian with English abstract).
2. Allen, D. E., Singh, B. P., and Dalal, R. C. 2011. Soil health indicators under climate change: a review of current knowledge PP 25–45 in Singh, B. P., Cowie, A. L., Chan, K. Y. (Eds.), Soil Health and Climate Change. Springer-Verlag, Berlin, Heidelberg.
3. Amini, A., Rajaie, M., and Farsinezhad, K. 2014. Effects of different plant residue under different tillage practices on yield and yield components of wheat (Triticum aestivum L.). Journal of Plant Ecophysiology 16: 27-37. (in Persian with English abstract).
4. Araya, T., Cornelis, W. M., Nyssen, J., Govaerts, B., Getnet, F., Bauer, H., Amare, K., Raes, D., Haile, M., and Deckers, J. 2012. Medium-term effects of conservation agriculture based cropping systems for sustainable soil and water management and crop productivity in the Ethiopian highlands. Field Crops Research 132: 53-62.
5. Bhushan, L., Ladha, J. K., Gupta, R. K., Singh, S., Tirol-Padre, A., Saharawat, Y. S., Gathala, M., and Pathak, H. 2007. Saving of water and labor in a rice–wheat system with no-tillage and direct seeding technologies. Agronomy Journal 99: 1288-1296.
6. Bremner, J. M. 1996. Nitrogen– Total. In: D.L. Sparks Et Al (Eds.), Methods of soil analysis. Part 3. Chemical methods. Sssa. Asa. Madison. W.U. Canadian Journal of Microbiology 21: 314-322.
7. Carrera, L. M., Abdul-Baki, A. A., and Teasdel, J. R. 2004. Cover crop management and weed suppression in No-tillage Sweet corn production. HortScience 39 (6): 1262-1266.
8. Carvalho, M., and Lourenco, E., 2014. Conservation Agriculture – A Portuguese Case Study. Journal of Agronomy and Crop Science 200: 317-324.
9. Chauhan, B. S., Gill, G. S., and Preston, C. 2007. Effect of seeding systems and di nitro aniline herbicides on emergence and control of rigid ryegrass (Lolium rigidum) in wheat. Weed Technology 21: 53-58.
10. De Vita, P., Di Paolo, E., Fecondo, G., Di Fonzo, N., and Pisante, M. 2007. No-tillage and conventional tillage effects on durum wheat yield, grain quality and soil moisture content in southern Italy. Soil & Tillage Research 92: 69-78.
11. Dinesh, R., Suryanayarana, M. A., Nair, A. K., and Ghoshal Chaudhhuri, S. 2001. Leguminous cover crop effects on nitrogen mineralization rates and kinetics in soils. Journal of Agronomy and Crop Science 187: 161-166.
12. Duiker, S. W., and Curran. W. S. 2005. Rye cover crop management for corn production in the northern mid-atlantic region. Agronomy Journal 97: 1413-1418.
13. Fageria, N. K., Baligar, V. C., and Bailey, B. A., 2005. Role of cover crops in improving soil and row crop productivity. Journal of Communications Soil Science Plant Analysis 36: 2733-2757.
14. FAO (Food and Agriculture Organization). 2013. Introduction to conservation agriculture (its principles & benefits). Available from: http://teca.fao.org/technology/introduction-conservation-agriculture-its-principles-benefits
15. Gadermaier, F., Berner, A., Fliebach, A., Friedel, J. K., and Mader, P. 2011. Impact of reduced tillage on soil organic carbon and nutrient budgets under organic farming. Renew Agriculture and Food Systems: pp 1-13.
16. Govaerts, B., Sayre, K. D., Goudeseune, B., De Corte, P., Lichter, K., Dendooven, L., and Deckers, J. 2009. Conservation agriculture as a sustainable option for the central Mexican highlands. Soil & Tillage Research 103: 222-230.
17. Hemmat, A., and Eskandari, I. 2004. Tillage system effects upon productivity winter wheat chickpea rotation in the northwest region of Iran. Soil & tillage Research 78 (11): 69-81.
18. Hemmat, A., and Eskandari, I. 2006. Dryland winter wheat response to conservation tillage in a continuous cropping system in northwestern Iran. Soil & tillage Research 86: 99-109.
19. Hobbs, P. R., Sayre, K., and Gupta, R. 2008. The role of conservation agriculture in sustainable agriculture. Philosophical Transactions of the Royal Society B: Biological Sciences 363: 543-555.
20. Jahan, M., Aryaee, M., Amiri, M. B., and Ehyaee, H. R. 2013. The effect of plant growth promoting rhizobactria (PGPR) on quantitative and qualitative charactristics of Sesamum indicum L. with application of cover crops of Lathyrus sp. and Persian clover (Trifolium resopinatum L.). Journal of Agroecology 5 (1): 1-15 (in Persian).
21. Jat, R. A., Wani, S. P., and Sahrawat, K. L. 2012. Conservation Agriculture in the Semi-Arid Tropics: Prospects and Problems. Advances in Agronomy 117: 191-237.
22. Jat, M. L., Gathala, M. K., Saharawat, Y. S., Tetarwal, J. P., Gupta, R., and Singh, Y. 2013. Double no-till and permanent raised beds in maize–wheat rotation of north-western Indo-Gangetic plains of India: effects on crop yields, water productivity, profitability and soil physical properties. Field Crops Research 149: 291-299.
23. Jokela, W. E., Grabber, J. H., Karlen, D. L., Balser, T. C., and Palmquist, D. E. 2009. Cover cropand liquid manure effects on soil quality indicators in a corn silage system. Agronomy Journal 101: 727-737.
24. Karlen, D. L., Cambardella, C. A., Kovar, J. L., and Colvin, T. S. 2013. Soil quality response to long-term tillage and crop rotation practices. Soil & Tillage Research 133: 54-64.
25. Kaschuk, G., Alberton, O., and Hungria, M. 2010. Three decades of soil microbial biomass studies in Brazilian ecosystems: lessons learned about soil quality and indications for improving sustainability. Soil Biology and Biochemistry Journal 42: 1-13.
26. Kuo, S., and Jellum, E. J. 2002. Influence of winter cover crop and residue management on soil nitrogen availability and corn. Agronomy Journal 94: 501-508.
27. Liebman, M., Mohler, C. L., and Staver, C. P. 2004. Ecological Management of Agricultural Weeds. Cambridge University Press, UK.
28. Miguez, F. E., and Bollero. G. A. 2005. Review of corn Yield response under winter cover cropping systems using meta-analytic methods. Crop Science 45: 2318-2329.
29. Mirsky, S. B., Ryan, M. R., Curran, W. S., Teasdale, J. R., Maul, J., Spargo J. T., Moyer, J., Grantham, A. M., Weber, D., Way, T. R., and Camargo, G. G. 2012. Conservation tillage issues: Cover crop-based organic rotational no-till grain production in the mid-Atlantic region, USA. Renewable Agriculture and Food Systems 27: 31-40.
30. Osunbitan, J. A., Oyedele, D. J., and Adekalu, K. O. 2005. Tillage effects on bulk density, hydraulic conductivity and strength of a loamy sand soil in south-western Nigeria. Soil & Tillage Research 82: 57-64.
31. Parihar, C. M., Jat, S. L., Singh, A. K., Singh, Y., Pradhan, S., Pooniya, V., Dhauja, A., Chaudhary, V., Jat, M. L., Jat, R. K., and Yadav, O. P. 2016. Conservation agriculture in irrigated intensive maize-based systems of north-western India: Effects on crop yields, water productivity and economic profitability. Field Crops Research 193: 104-116.
32. Piggin, C., Haddad, A., and Khalil, Y. 2011. Development and promotion of zero tillage in Iraq and Syria. 5thWorld Congress of Conservation Agriculture incorporating 3rd Farming Systems Design Conference, September 2011 Brisbane, Australia www.wcca2011.org
33. Poorhasankhani Dowlatabad, M., Madah Hosseini, Sh., Dashti, H., and Rahimi, A. 2015. Effect of Green Manure on Soil Organic Matter and Some Growth Indices of Maize (Zea mays L.) in Rafsanjan Region. Journal of Plant Products Technology 15 (2): 69-80 (in Persian with English abstract).
34. Radicetti, E., Mancinelli, R., and Campiglia, E. 2013. Influence of winter cover crop residue management on weeds and yield in pepper (Capsicum annuum L.) in a Mediterranean environment. Journal of Crop Protection 52: 64-71.
35. Reeves, D. W. 1994. Cover crops and rotations. In Crops Residue Management. Advances in Soil Science. Hatfield, J. L., and Stewart, B. A. (Eds.). Lewis Publishers, Boca Raton, FL, pp. 125-172.
36. Sainju, U. M., and Singh, P. 2001. Tillage, cover crop, and kill- plantation date effects on corn yield and soil nitrogen. Agronomy Journal 93: 878-886.
37. Samarajeewa K. B. D. P., Horiuchi, T., and Oba, Sh. 2006. Finger millet (Eleucine corocana L. Garetn) as a cover crop on weed control, growth and yield of soybean under different tillage systems. Soil & Tillage Research 90: 93-99.
38. Shaxson, T. F. 2006. Re-thinking the conservation of carbon, water and soil: a different perspective. Agronomy for Sustainable Development 26: 9-19.
39. Shao, Y., Xie, Y., Wang, Ch., Yue, J., Yao, Y., Li, X., Liu, W., Zhu, Y., and Guo, T. 2016. Effects of different soil conservation tillage approaches on soil nutrients, water use and wheat-maize yield in rainfed dry-land regions of North China. European Journal of Agronomy 81: 37-45.
40. Singh, V. K., Singh, Y., Dwivedi, B. S., Singh, K. S., Majumdar, K., Jat, M. L., Mishra, R. P., and Rani, M. 2016. Soil physical properties: yield trends and economics after five years of conservation agriculture based rice-maize system in north-western India. Soil & Tillage Research 155: 133-148.
41. Teasdale, J. R. 1996. Contribution of cover crops to weed management in sustainable agricultural systems. Journal of Production Agriculture 9: 475-479.
42. Tilman, D., Cassman, K. G., Matson, P. A., Naylor, R., and Polasky, S. 2002. Agricultural Sustainability and intensive production practices. Nature 418: 671-677. Available from: http:// dx.doi.org/10.1038/nature01014.
43. Tripathi, R. S., Raju, R., and Thimmappa, K. 2013. Impact of Zero Tillage on Economics of Wheat Production in Haryana. Agricultural Economics Research Review 26 (1): 101-108.
44. Unger, P. W., and Jones, O. R. 1998. Long-term tillage and cropping systems affect bulk density and penetration resistance of soil cropped to dryland wheat and grain sorghum. Soil & Tillage Research 45: 39-57.
45. Usman, K., Khan, E. A., Khan, N., Khan, M. A., Ghulam, S., Khan, S., and Baloch, J. 2013. Effect of Tillage and Nitrogen on Wheat Production, Economics, and Soil Fertility in Rice-Wheat Cropping System. American Journal of Plant Sciences 4: 17-25.
46. Walkly, A., and Black, I. A. 1934. An examination of the degtjareff method for determining soil organic matter and a proposed modification of the chromic acid titration method. Soil Science 37: 29-38.
47. Zhang, S., Chen, X., Jia, Sh., Liang, A., Zhang, X., Yang, X., Wei, Sh, Sun, B., Huang, D., and Zhou, G. 2015. The potential mechanism of long-term conservation tillage effects on maize yield in the black soil of Northeast China. Soil & Tillage Research 154: 84-90.
48. Zhao, M. Q., Hao, J. G., She, D. Q., Zhao, S. J., Fan, X. Q., and Liu, H. T. 2007. Conservation tillage in the interlock region of the farming area and pastoral area. Journal of Agriculture Mechanization Research 2: 122-125.
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History

  • Receive Date: 01 February 2017
  • Revise Date: 08 May 2017
  • Accept Date: 12 June 2017
  • First Publish Date: 21 March 2018

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