Extreme environments as sources of fungal endophytes mitigating climate change impacts on crops in Mediterranean‐type ecosystems

IF 3.7 2区 环境科学与生态学 Q1 BIODIVERSITY CONSERVATION Plants People Planet Pub Date : 2023-09-04 DOI:10.1002/ppp3.10415
G. Ballesteros, K. Newsham, I. Acuña‐Rodríguez, C. Atala, C. Torres‐Díaz, M. Molina‐Montenegro
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Abstract

Climate change is predicted to increase drought and soil salinity in Mediterranean‐type ecosystems (MTEs), posing a significant threat to global food security. Genetic modification of crops to counteract this threat is expensive and has not met with universal support, and alternatives are hence needed to enhance crop production in MTEs. Here, fungal endophytes from the Atacama Desert, High Andes and Antarctica inoculated onto three crops were found to alleviate the negative effects of drought and salinity on plant performance. The study concludes that extremophile endophytes might be used to enhance crop performance as the climate of MTEs changes over future decades. Climate change will curtail the ability to provide sufficient food for our rapidly expanding population. Improvements to crop production in changing environments, particularly Mediterranean‐type ecosystems (MTEs), which are increasingly subjected to drought and salinisation, are hence urgently needed. Here, we explored the possibility that fungal endophytes from extreme environments can be used to enhance crop yield, survival and tolerance to environmental stresses. Plants of lettuce, tomato and bell pepper were inoculated with up to six species of endophytic fungi isolated from the Atacama Desert, the High Andes and Antarctica. They were then exposed in the field for up to 120 days in each of three summers to current climatic conditions or to a future climate scenario simulating increased drought and soil salinisation. Compared with uninoculated plants, the yield and survival of inoculated crops were increased by up to two‐fold under the future climate scenario. These effects were in part attributable to the improved water balance of inoculated crops exposed to drought and salinisation. The inocula also increased the concentrations of total phenols and proline in leaves and decreased lipid peroxidation when plants were subjected to increased aridity and salinity. A mixed inoculum of six endophytes from the extreme environments conferred the most beneficial effects on crop performance, with a commercially available inoculum having fewer positive effects on crops. We conclude that the inoculation of crops with endophytes from extreme environments may be a viable solution to sustaining crop production in MTEs exposed to rapid climate change.
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极端环境作为真菌内生菌的来源,缓解了气候变化对地中海型生态系统作物的影响
预计气候变化将增加地中海型生态系统(mte)的干旱和土壤盐分,对全球粮食安全构成重大威胁。对作物进行基因改造以抵消这一威胁是昂贵的,而且没有得到普遍支持,因此需要其他替代方法来提高中等发达国家的作物产量。研究发现,将来自阿塔卡马沙漠、安第斯高原和南极洲的内生真菌接种到三种作物上,可以缓解干旱和盐度对植物性能的负面影响。该研究的结论是,随着未来几十年MTEs气候的变化,极端微生物内生菌可能被用于提高作物性能。气候变化将削弱我们为快速增长的人口提供足够食物的能力。因此,迫切需要在不断变化的环境中改善作物生产,特别是日益遭受干旱和盐碱化的地中海型生态系统(mte)。在这里,我们探索了来自极端环境的真菌内生菌可以用来提高作物产量、存活率和对环境胁迫的耐受性的可能性。用从阿塔卡马沙漠、安第斯高原和南极洲分离的多达6种内生真菌接种莴苣、番茄和甜椒植株。然后,在三个夏季的每个夏季中,他们在田间暴露在当前气候条件或模拟干旱和土壤盐碱化加剧的未来气候情景中长达120天。与未接种的作物相比,接种后的作物在未来气候情景下的产量和存活率提高了2倍。这些影响部分是由于接种的作物在干旱和盐碱化条件下水分平衡得到改善。在干旱和盐度增加的情况下,接种也增加了叶片中总酚和脯氨酸的浓度,减少了脂质过氧化。来自极端环境的六种内生菌的混合接种对作物性能产生了最有利的影响,而商业上可获得的接种对作物的积极影响较小。我们的结论是,从极端环境中接种内生菌的作物可能是一个可行的解决方案,以维持作物生产的MTEs暴露于快速气候变化。
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来源期刊
CiteScore
9.90
自引率
5.90%
发文量
81
审稿时长
12 weeks
期刊介绍: Plants, People, Planet aims to publish outstanding research across the plant sciences, placing it firmly within the context of its wider relevance to people, society and the planet. We encourage scientists to consider carefully the potential impact of their research on people’s daily lives, on society, and on the world in which we live. We welcome submissions from all areas of plant sciences, from ecosystem studies to molecular genetics, and particularly encourage interdisciplinary studies, for instance within the social and medical sciences and chemistry and engineering.
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