期刊文献+
共找到2篇文章
< 1 >
每页显示 20 50 100
Causes for the Unimodal Pattern of Leaf Carbon Isotope Composition in Abies faxoniana Trees Growing in a Natural Forest along an Altitudinal Gradient 被引量:3
1
作者 ZHAO Hong-xia DUAN Bao-li lei yan-bao 《Journal of Mountain Science》 SCIE CSCD 2015年第1期39-48,共10页
Leaf morphological and physiological traits of Abies faxoniana growing in a natural forest along an altitudinal gradient were measured with the aim to identify the central mechanism for the marked variation in foliar ... Leaf morphological and physiological traits of Abies faxoniana growing in a natural forest along an altitudinal gradient were measured with the aim to identify the central mechanism for the marked variation in foliar δ13C determined by an isotope ratio mass spectrometer. There is a unimodal pattern of plant functional traits in these temperate and semi- humid areas. Stomatal parameters, specific leaf area, and C/N ratio increased, whereas C, N and δ13C values decreased with increasing altitude below 3000 m a.s.1. In contrast, they exhibited opposite trends above 3000 m a.s.l.. Our results demonstrated that high-altitude plants achieve higher water use efficiency (WUE) at the expense of decreasing nitrogen use efficiency (NUE), whereas plants at 3000 m can maintain a relatively higher NUE but a lower WUE. Such intra-specific differences in the trade-off between NUE and WUE may partially explain the altitudinal distribution of the plants in relation to moisture and nutrient availability. Our results clearly indicate that the functional relations between nutritional status and the structure of leaves are responsible for the altitudinal variations associated with δ13C. The pivotal role of specific leaf area in regulating plant adaptive responses provides a potential physiological mechanism for the observed growth advantage of populations occupying the medium altitude. These adaptive responses altitudinal gradients showed that an altitude to of approximately 3000 m a.s.1, is the optimum distribution zone for A. faxoniana, allowing the most vigorous growth and metabolism. These results improve our understanding of the various roles of environmental and biotic variables upon δ13C dynamics and provide useful information for subalpine coniferous forest management. 展开更多
关键词 Abiesfaxoniana Age ALTITUDE Carbonisotope ratio Nitrogen content
下载PDF
若尔盖高寒沙化草地恢复过程中土壤全碳和植物根系特征的变化 被引量:4
2
作者 李露航 类延宝 +4 位作者 陈秋捷 邓先智 包寒阳 扎琼巴让 孙庚 《生态学杂志》 CAS CSCD 北大核心 2023年第2期282-290,共9页
草地对全球碳循环和土壤碳固存的重要性越来越受到重视。我国草地约95%的碳都储存在土壤中。本研究以若尔盖高寒草地为对象,选取了未恢复、恢复1年、恢复4年、恢复8年的4块沙化草地,探究高寒草地恢复过程中土壤全碳和植物根系特征的变... 草地对全球碳循环和土壤碳固存的重要性越来越受到重视。我国草地约95%的碳都储存在土壤中。本研究以若尔盖高寒草地为对象,选取了未恢复、恢复1年、恢复4年、恢复8年的4块沙化草地,探究高寒草地恢复过程中土壤全碳和植物根系特征的变化。结果表明:若尔盖高寒草地土壤碳含量受恢复时间和土壤深度的影响,恢复草地的土壤全碳、有机碳和无机碳含量皆高于未恢复草地;有机碳含量在恢复8年达到最高,而无机碳则在恢复1年最高,分别是未恢复草地的7.55、11.78倍;恢复1年、恢复4年草地的土壤有机碳含量表层(0~20 cm)低于深层(20~50 cm),而恢复8年草地则是深层低于表层;而土壤无机碳无论是恢复1年、恢复4年、恢复8年的草地皆是0~5 cm土层的最高;有机碳/无机碳比为恢复4年>恢复8年>恢复1年,且深层(20~70 cm)土壤有机碳占比要高于表层(0~20 cm);根系特征(根长、根体积、组织密度和根生物量)随着恢复时间增加而增加并与土壤有机碳显著正相关(P<0.05),而与土壤无机碳含量无显著相关(P>0.05),土壤无机碳含量与pH显著正相关(P<0.05);在沙化草地恢复过程中,土壤碳含量显著升高,草地植物群落和土壤理化性质也逐步改善。因此,对退化草地实施人工干预,进行次生演替,是增加高寒退化草地土壤碳汇的一种有效策略。 展开更多
关键词 若尔盖 沙化草地 土壤全碳 根系特征 草地恢复
原文传递
上一页 1 下一页 到第
使用帮助 返回顶部