为减轻气候变化下的磷流失所需的重大农业变革。

Major agricultural changes required to mitigate phosphorus losses under climate change.

作者信息

Ockenden M C, Hollaway M J, Beven K J, Collins A L, Evans R, Falloon P D, Forber K J, Hiscock K M, Kahana R, Macleod C J A, Tych W, Villamizar M L, Wearing C, Withers P J A, Zhou J G, Barker P A, Burke S, Freer J E, Johnes P J, Snell M A, Surridge B W J, Haygarth P M

机构信息

Lancaster Environment Centre, Lancaster University, Bailrigg, Lancaster, England, LA1 4YQ, UK.

Rothamsted Research North Wyke, Okehampton, Devon, England, EX20 2SB, UK.

出版信息

Nat Commun. 2017 Jul 31;8(1):161. doi: 10.1038/s41467-017-00232-0.

DOI:10.1038/s41467-017-00232-0

PMID:28757602

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5534432/

Abstract

Phosphorus losses from land to water will be impacted by climate change and land management for food production, with detrimental impacts on aquatic ecosystems. Here we use a unique combination of methods to evaluate the impact of projected climate change on future phosphorus transfers, and to assess what scale of agricultural change would be needed to mitigate these transfers. We combine novel high-frequency phosphorus flux data from three representative catchments across the UK, a new high-spatial resolution climate model, uncertainty estimates from an ensemble of future climate simulations, two phosphorus transfer models of contrasting complexity and a simplified representation of the potential intensification of agriculture based on expert elicitation from land managers. We show that the effect of climate change on average winter phosphorus loads (predicted increase up to 30% by 2050s) will be limited only by large-scale agricultural changes (e.g., 20-80% reduction in phosphorus inputs).The impact of climate change on phosphorus (P) loss from land to water is unclear. Here, the authors use P flux data, climate simulations and P transfer models to show that only large scale agricultural change will limit the effect of climate change on average winter P loads in three catchments across the UK.

摘要

从陆地到水体的磷流失将受到气候变化和粮食生产土地管理的影响，对水生生态系统产生不利影响。在此，我们运用独特的方法组合来评估预计的气候变化对未来磷转移的影响，并评估需要何种规模的农业变革来减轻这些转移。我们结合了来自英国三个代表性流域的全新高频磷通量数据、一个新的高空间分辨率气候模型、一系列未来气候模拟的不确定性估计、两个复杂度不同的磷转移模型，以及基于土地管理者专家意见得出的农业潜在集约化的简化表示。我们表明，气候变化对冬季平均磷负荷的影响（到2050年代预计增加高达30%）将仅受到大规模农业变革（例如，磷输入减少20 - 80%）的限制。气候变化对陆地到水体的磷（P）流失的影响尚不清楚。在此，作者们使用磷通量数据、气候模拟和磷转移模型表明，只有大规模农业变革才能限制气候变化对英国三个流域冬季平均磷负荷的影响。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/4aca/5534432/4047194f8be5/41467_2017_232_Fig1_HTML.jpg

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为减轻气候变化下的磷流失所需的重大农业变革。

Major agricultural changes required to mitigate phosphorus losses under climate change.

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