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B. Rosas. 2012. Interactions between legumes and rhizobia under stress conditions. pp. 77-94. K. ) Bacteria in Agrobiology: Stress Management. Springer Berlin Heidelberg. R. O. Othieno, A. S. Waswa, and J. Kihara. 2010. Effects of conservation tillage, crop residue and cropping systems on changes in soil organic matter and maize–legume production: A case study in Teso District. Nutr. Cycl. Agroecosyst. 88: 39–47. D. 1991. Implantation, trophoblast differentiation and hemochorial placentation, mechanistic evidence in vivo and in vitro.

Biol. Fert. Soil 20: 57–62. G. E. H. R. S. K. Crookston. 1997. Environment affects the corn and soybean rotation effects. Agron. J. 89: 441–448. A. S. Pate. 1983. Effect of temperature on nitrogenase functioning in cowpea nodules. Plant Physiol. 73: 392–394. N. Mathuva. 2000. Legumes for improving maize yields and income in semi–arid Kenya. Agr. Ecosyst. Envir. 78: 123–137. R. K. Ong. 1998. Biophysical interactions in tropical agroforestry systems. Agrofor. Syst. 338: 3–50. , X. L. Ma. 2001. Crop rotation and nitrogen effects on maize susceptibility to gibberella (Fusarium graminearum) ear rot.

Gregorich. 1999b. Soil nitrogen amendment effects on seasonal nitrogen mineralization and nitrogen cycling in maize production. Agron. J. 91: 1003–1009. C. K. J. B. McLaughlin. 2012. The carbon footprint of maize production as affected by nitrogen fertilizer and maize–legume rotations. Nutr. Cycl. Agroecosyst. 94: 15–31. , F. Meloche, and L. Wei. 2009. Agronomic assessment of Bt trait and seed or soilapplied insecticides on the control of corn rootworm and yield. Field Crops Res. 111: 189-196. D.

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