In crop-livestock integration systems the presence of both grass roots in the soil and straw on the surface can temporarily immobilize nitrogen. This study examined the persistence of grass residues in the system as well as their effects on cotton response to N when grown after Congo grass ( Brachiaria ruziziensis, Syn. Urochloa ruziziensis ). Congo grass was grown in pots with soil. Next, cotton was grown in the same pots without residues, with whole plant residues (Congo grass roots and shoots) or root residues (grass roots) and fertilized with N as ammonium nitrate. Congo grass and cotton roots were separated using stable carbon isotope fractioning. Congo grass roots showed higher C/N ratio than shoots, losing 14% of its mass after 45 days and increasing soil N immobilization. The lower N availability resulted in N deficient and shorter cotton plants with lower dry matter yields. Nevertheless, the application of 80 to 120 mg kg -1 of N compensated the immobilization by the soil microorganisms, allowing cotton to show normal growth. When Congo grass is present in the cropping system, the effects of the decaying roots on soil N dynamics and availability are more important than those of the straw left on the soil surface.
展开▼
机译:在农作物-畜牧业整合系统中,土壤中的草根和地表上的稻草都可以暂时固定氮。这项研究研究了刚果草(Brachiaria ruziziensis,Syn。Urochloa ruziziensis)生长后,系统中草残留的持久性及其对棉花对氮的响应的影响。刚果草在装有土壤的花盆中生长。接下来,将棉花种植在没有残渣的同一盆中,种植全株残渣(刚果草根和芽)或残渣(草根),并以N作为硝酸铵施肥。使用稳定的碳同位素分级分离刚果草和棉花根。刚果草根的C / N比值高于芽,在45天后损失了14%的质量,并增加了土壤固氮能力。较低的氮素利用率导致氮素不足和较短的棉花植株具有较低的干物质产量。尽管如此,施用80至120 mg kg -1的氮补偿了土壤微生物的固定作用,使棉花表现出正常的生长。当种植系统中存在刚果草时,腐烂的根对土壤氮动态和有效性的影响比留在土壤表面的秸秆更为重要。
展开▼
