首页  实验室概况  研究成果  人才队伍  研究生培养  合作交流  省重点实验室  下载中心 
新闻动态

傅声雷研究团队揭示林冠氮沉降提 2024-06-17
郭丽君一行赴大别山国家站调研并 2023-07-18
2023年中国地理学会农业地理与乡 2023-07-18
河南大学与信阳市人民政府举行信 2023-07-08
河南大学喜获10项2022年度河南省 2023-03-27
河南大学与信阳市政府共建 “信 2023-03-27

下载中心
您的位置: 首页>>下载中心>>正文

Soil Biology and Biochemistry(2018)--Cooperation of earthworm and arbuscular mycorrhizae enhanced plant N uptake by balancing absorption and supply of ammonia
2018-06-05 10:48 宋蒙亚 

[Abstract] Earthworms and arbuscular mycorrhizal fungi (AMF) interact to regulate plant nitrogen (N) supply, but the mechanisms through which they affect plant N uptake are unclear. We hypothesized that earthworms, plants and the associated AMF exhibit different preferences for different forms of inorganic N (NH4+ and NO3-), which could regulate the effect of earthworms and AMF interaction on plant N acquisition. We outlined three independent but complementary experiments to test this hypothesis in the context of exotic earthworm, Pontoscolex corethrurus. The earthworm is dominating the plantation forests in subtropical and tropical regions of China, which have their understory dominated by the fern Dicranopteris dichotoma. By employing an excised root 15N incubation experiment and a field in situ 15N experiment, we found that the fern prefers to use NH4+ rather than NO3-. Then we did a 2 × 2 factorial microcosm experiment using AMF (Rhizophagus intraradices) and earthworms (P. corethrurus). The exotic earthworm increased soil NH4+ concentration but did not affect soil NO3- concentration, while the AMF decreased soil NH4+ concentration but had no effect on soil NO3- concentration. The increase in soil NH4+ induced by the earthworms was efficiently utilized by the AMF, and significantly increased the total N uptake by the fern. In contrast, the AMF alone increased the N concentration of leaves and coarse roots, but not the total plant N uptake, primarily due to the lower levels of available NH4+ compared with the earthworm treatments. The uninoculated fern did not benefit from the earthworm-induced increase in soil NH4+, suggesting that the root of the fern cannot access the ‘NH4+ hotspots’ created by the earthworms. Our work suggests that successful cooperation of earthworms and AMF on plant N uptake depends on the correct match in N-form.

附件【Soil Biology and Biochemistry(2018)--Cooperation of earthworm and arbuscular mycorrhizae enhanced plant N uptake by balancing absorption and supply of ammonia.pdf已下载
关闭窗口

河南大学生态地理学实验室