Alae-Carew Carmelia, Nicoleau Salina, Bird Frances A, Hawkins Poppy, Tuomisto Hanna L, Haines Andy, Dangour Alan D, Scheelbeek Pauline F D
Department of Population Health, London School of Hygiene & Tropical Medicine, London, WC1E 7HT, UK.
Centre on Climate Change and Planetary Health, London School of Hygiene & Tropical Medicine, London, WC1E 7HT, UK.
Environ Res Lett. 2020 Feb;15(2):023002. doi: 10.1088/1748-9326/ab5cc0. Epub 2019 Nov 28.
Environmental changes are predicted to threaten human health, agricultural production and food security. Whilst their impact has been evaluated for major cereals, legumes and vegetables, no systematic evidence synthesis has been performed to date evaluating impact of environmental change on fruits, nuts and seeds (FN&S) - valuable sources of nutrients and pivotal in reducing risks of non-communicable disease.
We systematically searched seven databases, identifying available published literature (1970-2018) evaluating impacts of water availability and salinity, temperature, carbon dioxide (CO2) and ozone (O3) on yields and nutritional quality of FN&S. Dose-response relationships were assessed and, where possible, mean yield changes relative to baseline conditions were calculated.
81 papers on fruits and 24 papers on nuts and seeds were identified, detailing 582 and 167 experiments respectively. A 50% reduction in water availability and a 3-4dS/m increase in water salinity resulted in significant fruit yield reductions (mean yield changes: -20.7% [95%CI -43.1% to -1.7%]; and -28.2% [95%CI -53.0% to -3.4%] respectively). A 75-100% increase in CO2 concentrations resulted in positive yield impacts (+37.8%; [95%CI 4.1% to 71.5%]; and 10.1%; [95%CI -30.0% to 50.3%] for fruits and nuts respectively). Evidence on yield impacts of increased O3 concentrations and elevated temperatures (>25°C) was scarce, but consistently negative. The positive effect of elevated CO2 levels appeared to attenuate with simultaneous exposure to elevated temperatures. Data on impacts of environmental change on nutritional quality of FN&S were sparse, with mixed results.
In the absence of adaptation strategies, predicted environmental changes will reduce yields of FN&S. With global intake already well-below WHO recommendations, declining FN&S yields may adversely affect population health. Adaptation strategies and careful agricultural and food system planning will be essential to optimise crop productivity in the context of future environmental changes, thereby supporting and safeguarding sustainable and resilient food systems.
预计环境变化将威胁人类健康、农业生产和粮食安全。虽然已对主要谷物、豆类和蔬菜的影响进行了评估,但迄今为止,尚未进行系统的证据综合分析来评估环境变化对水果、坚果和种子(FN&S)的影响,而这些是宝贵的营养来源,对降低非传染性疾病风险至关重要。
我们系统检索了七个数据库,识别了已发表的可用文献(1970 - 2018年),评估了水分供应和盐度、温度、二氧化碳(CO₂)和臭氧(O₃)对FN&S产量和营养品质的影响。评估了剂量反应关系,并在可能的情况下,计算了相对于基线条件的平均产量变化。
确定了81篇关于水果的论文和24篇关于坚果和种子的论文,分别详细介绍了582项和167项实验。水分供应减少50%和水盐度增加3 - 4 dS/m导致水果产量显著下降(平均产量变化分别为:-20.7% [95%置信区间 -43.1%至 -1.7%];和 -28.2% [95%置信区间 -53.0%至 -3.4%])。二氧化碳浓度增加75 - 100%对产量有积极影响(水果为 +37.8%;[95%置信区间4.1%至71.5%];坚果为10.1%;[95%置信区间 -30.0%至50.3%])。关于臭氧浓度增加和温度升高(>25°C)对产量影响的证据很少,但始终是负面的。二氧化碳水平升高的积极影响似乎在同时暴露于高温时会减弱。关于环境变化对FN&S营养品质影响的数据很少,结果不一。
在缺乏适应策略的情况下,预计的环境变化将降低FN&S的产量。由于全球摄入量已远低于世界卫生组织的建议,FN&S产量下降可能对人口健康产生不利影响。适应策略以及谨慎的农业和粮食系统规划对于在未来环境变化的背景下优化作物生产力至关重要,从而支持和保障可持续且有韧性的粮食系统。
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