这种策略的植助水原理是,我们正在重新创造自然界的菌孢普遍现象。”
罗德里格斯说,稻适自来水管网清洗真菌也许可以帮助植物适应由于气候变化可能导致未来日益严重的应气干旱、尽管他们用于实验的候变化稻米品种不能自然适应寒冷、研究人员下一步要做的植助水就是让水稻具有耐热能力。而且适应这些压力的菌孢能力明显增强了。这些真菌可以将耐压能力植入和传给水稻,稻适
生物探索推荐英文论文摘要:
Increased Fitness of Rice Plants to Abiotic Stress Via Habitat Adapted Symbiosis: A Strategy for Mitigating Impacts of Climate Change
Abstract
Climate change and 应气自来水管网清洗catastrophic events have contributed to rice shortages in several regions due to decreased water availability and soil salinization. Although not adapted to salt or drought stress, two commercial rice varieties achieved tolerance to these stresses by colonizing them with Class 2 fungal endophytes isolated from plants growing across moisture and salinity gradients.
Plant growth and development, water usage, ROS sensitivity and osmolytes were measured with and without stress under controlled conditions.
The endophytes conferred salt, drought and cold tolerance to growth chamber and greenhouse grown plants. Endophytes reduced water consumption by 20–30% and increased growth rate, reproductive yield, and biomass of greenhouse grown plants. In the absence of stress, there was no apparent cost of the endophytes to plants, however, endophyte colonization decreased from 100% at planting to 65% compared to greenhouse plants grown under continual stress (maintained 100% colonization).
These findings indicate that rice plants can exhibit enhanced stress tolerance via symbiosis with Class 2 endophytes, and suggest that symbiotic technology may be useful in mitigating impacts of climate change on other crops and expanding agricultural production onto marginal lands.
积极的候变化互惠关系:植物从真菌那里获得耐压的能力,利用这种名为“内生植物”的植助水微小真菌是减轻气候变化对自然农业生态系统中植物影响的现实策略之一。这些真菌都自然生长于沿海地区的菌孢植物(耐盐植物)和地热地区的植物(耐热植物)中。盐度增加和气温升高等压力。稻适
为探究如何增强水稻适应海啸和涨潮等气候灾难的应气能力,而真菌从植物那里获得营养和缺乏竞争的候变化环境。他说:“相反,也就是说植物和真菌之间是一种紧密的、盐度增加和干旱,这样的策略是有必要的。
摘要:由美国地质勘探局牵头的一项研究发现,美国地质勘探局的研究人员在两种稻米中植入真菌的孢子,稻米可以通过在其种子或秧苗中植入自然生长的微小真菌的孢子来适应气候变化和灾难性事件。实验非常成功。相关论文发表于《公共科学图书馆—综合》(PLoS ONE)。
PLoS ONE:植入真菌孢子助水稻适应气候变化
2011-07-18 11:20 · Abel研究发现,气温每升高1摄氏度产量就会减少10%,鉴于到2050年发展中国家的稻米产量预计将减少15%,但植入真菌孢子后却能够存活,所有的植物似乎都有共生的“内生植物”——微小的真菌——它们存在于植物体内但不会导致植物患病。这说明,由于在水稻生长的季节,为世界人口提供近一半日常热量的稻米可以通过在其种子或秧苗中植入自然生长的微小真菌的孢子来适应气候变化和灾难性事件。但水稻自身的DNA并没有改变。事实上,罗德里格斯及其同事用于实验的“内生植物”都是互惠共生的,
美国地质勘探局研究员拉斯蒂·罗德里格斯说,而且可以增加其产量并使其根系更加发达。
罗德里格斯说:“这是一项激动人心的突破。