了解物种性状和生物多样性指数以解决豆科植物在种植系统中的持续性问题

M. Islam, D. Ashilenje
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引用次数: 0

摘要

遮荫和草对矿质养分的竞争影响混作系统中豆科植物的功能和产量。来自竞争和不利环境的持续压力导致这种种植系统中豆科作物寿命缩短。这对饲料产量造成了负面影响。通过了解促进共存和互补资源利用的物种特征和植物群落动态,有机会解决豆科植物持久性的挑战。此外,豆科植物对水分胁迫、酸碱度、自播和遮荫耐性等不利土壤因素具有独特的耐受能力,是混合作物中豆科植物的积极性状。在群落中,叶冠形态的趋同和干物质分布的不同一性可以避免物种竞争带来的负面影响。虽然播种比例可以影响饲料产量和质量,但包括收获频率和优化磷、钾肥料在内的管理对维持豆科植物与草混合的生长和功能起着至关重要的作用。物种对光、水和养分资源竞争的若干事实荫蔽躲避;本章重点介绍了生物多样性的机制。
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Understanding Species Traits and Biodiversity Indices to Solve Problems Associated with Legume Persistence in Cropping Systems
Shading and competition for mineral nutrients by grass impair legume functions and production in mixed cropping systems. Sustained stress from competition and adverse environments contribute to shortened legume life spans in such cropping systems. This creates negative consequences to forage productivity. There are opportunities to solve the challenge of legume persistence by understanding species traits and plant community dynamics that foster coexistence and complementary resource use. Together with species ’ unique ability to tolerate adverse soil factors such as water stress, acidity and salinity, self- seeding, and shade tolerance are positive traits among legume species that grow in mixed crops. In communities, converging leaf and shoot conformations as well as asynchrony in dry matter distribution among species can avert negative effects of species competition. While seeding ratios can influence forage production and quality, management including harvest frequency and optimizing phosphorus (P) and potassium (K) fertilizers have crucial roles in perpetuating legume growth and function in mixtures with grass. Some facts on species competition for light, water, and nutrient resources; shade avoidance; and biodiversity mechanisms are highlighted in this chapter.
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