Mimicking nature to reduce agricultural impact on water cycles: A set of mimetrics

IF 3.5 3区 经济学 Q1 AGRICULTURE, MULTIDISCIPLINARY Outlook on Agriculture Pub Date : 2022-01-27 DOI:10.1177/00307270211073813
M. van Noordwijk, P. V. van Oel, C. Muthuri, Usha Satnarain, R. R. Sari, Paulina Rosero, M. Githinji, Lisa Tanika, L. Best, Gildas Geraud Comlan Assogba, George Kimbowa, Federico Andreotti, Elisabeth Lagneaux, C. Wamucii, A. L. Hakim, A. Miccolis, Ali Yansyah Abdurrahim, A. Farida, E. Speelman, G. Hofstede
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引用次数: 10

Abstract

Metrics of hydrological mimicry (‘mimetrics’) reflect similarity in ecological structure and/or functions between managed and natural ecosystems. Only the land-surface parts of hydrological cycles are directly visible and represented in local knowledge and water-related legislation. Human impacts on water cycles (HIWC) can, beyond climate change, arise through effects on local and regional hydrological processes, from both reduced and increased water use compared to a natural reference vegetation with which landscape structure and hydrology are aligned. Precipitationsheds, the oceanic and terrestrial origin of rainfall, depend on evapotranspiration and thus on vegetation. The political commitment to reduce agricultural impact on nature requires hydrological mimetrics to trickle down through institutions to actions. Existing metrics do not suffice. For example, the water footprint metric that relates agricultural water use to consumption decisions, suggests minimizing water use is best, ignoring full hydrological impacts. We explore principles, criteria and indicators for understanding HIWC, via modified evapotranspiration, effects on streamflow (downstream impacts) and atmospheric fluxes and precipitation (downwind impacts). Comprehensive HIWC mimetrics for a set of pantropical watersheds suggest hydrological mimicry options for forest-derived land use patterns through intermediate densities of trees with diversity in rooting depth and water use, interacting with soils, crops and livestock.
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模仿自然以减少农业对水循环的影响:一套模拟方法
水文模拟指标反映了管理生态系统和自然生态系统在生态结构和/或功能方面的相似性。只有水文循环的地表部分是直接可见的,并在当地知识和与水有关的立法中得到体现。除了气候变化之外,人类对水循环(HIWC)的影响还可能通过对当地和区域水文过程的影响而产生,与景观结构和水文相一致的自然参考植被相比,水的使用减少和增加。降水带是降雨的海洋和陆地来源,取决于蒸散量,因此也取决于植被。减少农业对自然影响的政治承诺要求水文模拟通过机构渗透到行动中。现有的指标还不够。例如,将农业用水与消费决策联系起来的水足迹指标表明,在忽略全部水文影响的情况下,尽量减少用水是最好的。我们探索了通过修改蒸散量、对径流的影响(下游影响)以及大气通量和降水(顺风影响)来理解HIWC的原则、标准和指标。一组泛热带流域的综合HIWC模拟表明,通过中等密度的树木,在生根深度和用水方面具有多样性,并与土壤、作物和牲畜相互作用,可以对森林衍生的土地利用模式进行水文模拟。
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来源期刊
Outlook on Agriculture
Outlook on Agriculture 农林科学-农业综合
CiteScore
5.60
自引率
13.30%
发文量
38
审稿时长
>36 weeks
期刊介绍: Outlook on Agriculture is a peer reviewed journal, published quarterly, which welcomes original research papers, research notes, invited reviews and commentary for an international and interdisciplinary readership. Special attention is paid to agricultural policy, international trade in the agricultural sector, strategic developments in food production, the links between agricultural systems and food security, the role of agriculture in social and economic development, agriculture in developing countries and environmental issues, including natural resources for agriculture and climate impacts.
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