Transition from a nutrient management system based on green manure (GrM system) to one based on biodigested plant material produced within the crop rotation (BG system) was investigated in crop sequences including clover-grass,udbeetroot and cereals. The overall hypothesis was that transition would improve nitrogen (N) availability. In field experiments on sandy soil, harvested clover-grassudley had lower N content in clover and biomass produced than GrM-ley. The residual N effect of clover-grass ley harvested twice (2H) or three times (3H) was 42 and 74 kg N ha-1 less than that of GrM-ley considering uptake in beetroot and mineral N in soil at harvest. Expressed as inorganic fertiliser equivalents the reduction was 52 and 80 kg N ha-1, respectively. Net inorganic N equivalents (from effluent plus pre-crops) were simulated for three crop sequences: (A) green manure ley, beetroot, winter rye; (B) harvested ley, beetroot, winter rye; and (C) harvestedudley, spring barley, beetroot, where B and C represented BG systems and A a GrM system. For three hectares with the entire crop sequence A, B and C, net inorganic N equivalents were 73, 74 and 128 kg N, respectively. Net inorganic N equivalents in BG systems with 2H- and 3H-ley did not differ significantly. When the whole increase in net inorganic N equivalents was used for beetroot following barley, marketable beetroot yield increased by 1.7 Mg ha-1 (12%) in the BG system with 2H-ley and by 5.8 Mg ha-1 (34%) with 3H-ley compared with beetroot grown without digestate fertilisation following a GrM-ley. Fertilisation with a moderate level of effluent of beetroot directly following harvested ley gave unexpectedly low yield responses. Compositional nutrient diagnosis (CND) using norms derived from aeroponic experiments with 22 treatments with dynamic nutrient supply and partial least squares (PLS) were synonymous in showing K as more growth-limiting than Nudat early growth stages. Growth limitation was more severe in effluent-fertilised beetroot following harvested ley than following barley. Pot experiments showed an apparent net mineralisation of organically bound N in digestate of 12%. The overall conclusion was that a BG system can greatly improve N efficiency. However, as the nutrient buffering capacity in sandy soil is low, inappropriate use of the effluent, e.g. at an unsuitable point in the crop rotation, can negate the N efficiency benefits.
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机译:在三叶草,草根和谷物等农作物序列中,研究了从基于绿肥的营养管理系统(GrM系统)向基于作物轮作中产生的生物消化植物材料的管理系统(BG系统)的过渡。总体假设是,过渡将提高氮(N)的利用率。在沙质土壤的田间试验中,收获的三叶草/草的三叶草和生产的生物量中的氮含量低于GrM-ley。考虑到收获时甜菜根和土壤中氮的吸收,收获两次(2H)或三次(3H)的三叶草的残留氮效应比GrM-ley少42和74 kg N ha-1。以无机肥料当量表示的减少量分别为52和80 kg N ha-1。模拟了三种作物序列的净无机氮当量(来自污水和前茬):(A)绿肥,甜菜根,黑麦; (B)收获的莱利,甜菜根,冬黑麦; (C)收获的 udley,大麦春,甜菜根,其中B和C代表BG系统,A代表GrM系统。对于整个作物序列分别为A,B和C的三公顷土地,净无机氮当量分别为73、74和128 kgN。具有2H-ley和3H-ley的BG系统中的净无机氮当量没有显着差异。当将大麦净无机氮当量的全部增加用于大麦后的甜菜根时,使用2H-ley的BG系统的可销售甜菜根产量增加1.7 Mg ha-1(12%),而使用2H-ley时增加5.8 Mg ha-1(34%) 3H-ley与甜菜根在GrM-ley之后未经消化施肥的情况相比。在收获的ley之后直接施以中等水平的甜菜根废水施肥,出乎意料的低产响应。使用空气动力学实验的规范进行的成分养分诊断(CND)(22种动态养分供应处理和偏最小二乘(PLS)处理)是同义词,表明K比N udat早期生长阶段更具生长限制。收获后的甜菜根肥处理后的甜菜根的生长限制比大麦后更为严重。盆栽实验表明,在消化物中有机结合的氮的表观净矿化度为12%。总体结论是,BG系统可以大大提高氮效率。但是,由于在沙质土壤中的养分缓冲能力很低,因此废水的不当使用,例如:在作物轮作的不合适时期,可以抵消氮肥的效益。
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