咖啡作物氮利用效率的决定因素。回顾

Siavosh Sadeghian-Khalajabadi, José-Ricardo Acuña-Zornosa, L. Salazar-Gutiérrez, Juan-Camilo Rey-Sandoval
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摘要

近几十年来,由于需求的不断增长,世界咖啡(Coffea spp.)的产量有所增加。氮(N)是咖啡作物最需要的养分之一,在许多情况下,也是最限制产量的养分之一;然而,供给的氮中有很大一部分会流失,从而产生污染、温室气体和经济损失。在这种情况下,优先采取提高氮利用效率的做法,这与植物吸收和利用氮产生生物量的能力有关。这篇文章提供了关于咖啡nuue和决定因素的背景:植物、土壤、气候和管理。在植物方面,尽管遗传学和基因型评估取得了进展,但要在世界咖啡种植中获得或使用具有高EUN的改良咖啡品种,可能还需要十年或更长时间。土壤的物理、化学和生物特性以及气候要素,主要是温度、降水和太阳辐射,都对咖啡生长和许多干预N循环和NUE的过程产生影响;然而,这两个因素的某些组成部分并不是完全可控的。对决定氮素有效利用的因素的管理应侧重于减少系统中的氮素损失,增加植物对氮素的吸收和利用,并保持或提高生产力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Determinants of nitrogen use efficiency in coffee crops. A review
World production of coffee (Coffea spp.) has increased in recent decades due to its growing demand. Nitrogen (N) is one of the most required nutrients by coffee crops and in many cases, the most yield-limiting; nevertheless, a high percentage of supplied N is lost, generating pollution, greenhouse gases, and economic losses. Given this scenario, it is a priority to adopt practices that increase nitrogen use efficiency related to the capacity of plants to absorb and use N to produce biomass. This article provides context about NUE and determining factors in coffee: plant, soil, climate, and management. On the plant side, despite advances in genetics and the results of genotype evaluation, it may be a decade or more before improved coffee varieties with high EUN become available or used in world coffee farming. Both the physical, chemical, and biological properties of the soil and the elements of the climate, mainly temperature, precipitation, and solar radiation, have an influence on coffee growth and many of the processes that intervene in the N cycle and NUE; however, some components of these two factors are not fully controllable. Management of the factors that determine NUE should focus on reducing N losses in the system, increasing its uptake and utilization by plants, and maintaining or increasing productivity.
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