H. P. Bhagya, P. Gangadharappa, B. Kalyanababu, D. S. M. B. N. Naika, R. Naik
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引用次数: 0
摘要
生产力和碳封存(Srinivasan et al., for Agricultural Research. 2 Edition, John Wiley and 2012);Manna et al., 2012)。根据纽约《儿子》杂志的报道,704页。Manna et al.(2012),长期碳封存Lal, R. 2004。土壤固碳对全球土壤的影响既取决于有机碳投入,也取决于气候变化和粮食安全。[j] .中国科学院学报(自然科学版),2011。微生物生产的FYM分解缓慢,导致更多的有机碳顽固性有机质在全球土壤:对土壤积累的影响。除了直接的生产力和气候政策。土壤有机碳,有机肥料微生物学,doi:10.1038/nrmicro2386-c1031。Liyanage, L.V.K, Jayasundra, h.p.s., Mathes, D.T,并间接通过提高微生物生物量。根据Liang和Balser(2011)的报告,牧场、饲料和活动的整合。牛在椰子小农场。脐带5(2):53-66。
Multivariate analysis of oil palm germplasm for vegetative and bunch yield traits
productivity and C-sequestration (Srinivasan et al., for Agricultural Research. 2 Edition, John Wiley and 2012; Manna et al., 2012). As per the report of Sons, New York. 704p. Manna et al. (2012), the long-term C sequestration Lal, R. 2004. Soil carbon sequestration impacts on global in soil is dependent on both organic C inputs and its climate change and food security. Science 304:1623stability in soil organic sources of nutrients such as Liang, C and Balser, T. C. 2011. Microbial production of FYM that decompose slowly resulting in more SOC recalcitrant organic matter in global soils: Implications for accumulation in soil. Apart from a direct productivity and climate policy. Nature Reviews contribution to soil organic C, organic manures Microbiology, doi:10.1038/nrmicro2386-c1031. applied to soil may also improve C accumulation Liyanage, L.V.K., Jayasundra, H.P.S., Mathes, D.T and indirectly through enhancing microbial biomass Fernado, D.N.S. 1989. Integration of pastures, fodder and and activity as reported by Liang and Balser (2011). cattle in coconut small holdings. CORD 5(2): 53-66.