土壤氮异质性与种间地上竞争对玉米和马铃薯生长的影响

Maize and potato growth responses to heterogeneous nitrogen and shoot competition

  • 摘要: 由于不均匀施肥、有机质分解和群体结构复杂化等因素, 氮在间作农田土壤中的分布具有异质性。因此, 间作作物的生长同时受到种间竞争和异质性氮的影响。然而, 人们对作物种间关系(特别是地上竞争)与异质性氮在影响作物生长中有何关系还知之较少。本研究以玉米与马铃薯间作模式为试验对象, 在盆栽条件下采用控释性氮肥构建异质性, 利用根管分隔去除地下竞争后, 通过目标植物法设计地上竞争处理, 探讨作物的觅养精确度、生物量生产、功能性状、竞争能力和总相对生产力对氮分布和地上竞争的响应。结果表明: 异质氮处理的总相对生产力高于均质氮处理, 这可能是因为与无竞争相比, 地上竞争提高两作物的觅养精确度。但在地上竞争下异质氮抑制马铃薯的生长, 玉米生长得以提高, 而在无竞争下异质氮处理提高两作物的生长; 这些生长变化在功能性状上得到进一步体现, 包括根冠比、根叶比、叶重比和根重比; 从竞争能力来看, 相对于均质氮处理, 异质氮处理促进玉米但降低马铃薯的竞争能力, 故马铃薯在均质氮条件下有竞争优势, 而玉米则在异质性氮条件下具有竞争优势。总之, 地上竞争改变作物对异质性氮的觅养行为, 而异质性氮提高作物生长, 改变玉米和马铃薯的相对竞争能力, 因此地上竞争和氮异质性在调控作物生长过程中存在相互影响, 这一发现可增加对间作体系中氮利用特征的认识, 也有助于理解农田间作系统中作物生长变化的复杂性。

     

    Abstract: Due to uneven fertilization, organic matter decomposition and complex community structure, soil nitrogen distribution was highly heterogeneous in intercropped farmlands. Consequently, intercropped crop growth was simultaneously influenced by inter-specific competition and heterogeneous nitrogen. However, there has existed limited knowledge on the relationship between inter-specific competition and heterogeneous nitrogen for crop growth. In the study, the intercropping of maize and potato, an overyielding system in the world, was choose as study objective; the crops were planted in large pots with control-released nitrogen fertilizer, applied either homogeneously or heterogeneously, with or without shoot competition. Plant biomass was measured and then relative interaction index (RII), root foraging precision (RFP) and land equivalent ratio (LER) calculated. The calculations explored the characteristics of the responsiveness of the two crops to heterogeneous nitrogen and shoot competition. The study showed that LER was greater under heterogeneous than under homogeneous nitrogen condition. This was probably due to higher RFP of the two crops under shoot competition. Under shoot competition, however, potato biomass was lower in heterogeneous nitrogen treatment. This was the contrast for maize, whereas without competition, growth of both crops was enhanced by heterogeneous nitrogen treatment. These variations in growth were consistent with those in functional traits including root shoot ratio (RSR), root leaf ratio (RLR), leaf mass fraction (LMF) and root mass fraction (RMF). Consistent with the variations in growth under homogeneous nitrogen treatment, heterogeneous nitrogen treatment increased maize RII and decreased that of potato. Thus while potato had competitive advantage under homogeneous nitrogen treatment, maize had competitive advantage under heterogeneous nitrogen treatment. These results suggested that heterogeneous nitrogen treatment enhanced crop growth and changed relative competitive ability of intercropped crops. Also shoot competition affected characteristics of root foraging of crops. Our study therefore demonstrated that interactions, which affected crop performance, occurred between shoot competition and homogeneous nitrogen treatment. This finding enriched existing knowledge on nitrogen use characteristic which enhanced understanding of complex crop growth performance in intercropped systems.

     

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