绘制生态系统中植物性状-服务联系的同行评议科学研究:文献计量学分析

Arkajyoti Shome, Shyam S. Phartyal, Pyarimohan Maharana, Anurag Verma
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摘要

“生态系统服务”的概念在21世纪得到了推动,以弥合人与自然互动之间的差距。然而,绘制生态系统服务流程图以进行有效管理仍然是一项挑战。在现有的多种方法中,生物物理评估可以更好地了解生态系统的状态及其地图绘制,以提供补充服务。如果我们更好地了解功能特征在潜在生态系统过程中的作用,特征-服务联系是将生物多样性与ES可靠联系起来的工具之一。在本文中,我们对已发表的关于ES和植物功能性状的文献进行了文献计量分析,以确定关于性状-服务联系、偏见、研究差距和挑战的知识现状。特征-服务联系研究的地理基础存在偏差;大多数研究是在欧洲和北美进行的。大多数研究都集中在支持和调节ES,主要是碳固存、生物量生产和气候调节,使用一组特定的营养性状,如叶、根和株高,而忽略了除少数花性状外的大多数再生性状。一个量化ES与所选植物性状(比叶面积、叶干物质含量、叶面积、叶片氮含量、植被高度、木材密度、冠层密度、根长、根密度、开花时间、花颜色和花朵大小)之间关系的矩阵显示,连锁中的两个叶性状(比叶面积和叶干物质内容)具有对比该研究表明,在将植物性状与基本ES(生物量生产、气候和水分调节)联系起来方面,仍存在相当大的研究差距。因此,建议未来对ES的研究应更多地关注主要生态系统的特征-服务联系,以支持关键的生态系统过程,更好地维持ES和人类福祉。
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Mapping Peer-Reviewed Scientific Studies on Plant Trait–Service Linkages Across Ecosystems: A Bibliometric Analysis

The concept of ‘ecosystem service’ has gained momentum in the twenty-first century to bridge the gap between human–nature interactions. However, the challenge remains to map the flow of ecosystem services (ES) for their efficient management. Among the multiple existing methods, biophysical assessments provide better knowledge of the state of the ecosystem and its mapping for complimentary services. Trait–service linkage is one of the tools to reliably link biodiversity with ES if we better understand the role functional traits play in the underlying ecosystem processes. In this paper, we have performed a bibliometric analysis of published literature on ES and plant functional traits to identify the current state of knowledge on trait–service linkage, biases, research gaps, and challenges. There was a skewed geographical basis for trait–service linkage studies; most studies were conducted in Europe and North America. The majority of the research focused on supporting and regulating ES, mainly carbon sequestration, biomass production, and climate regulation, using a particular set of vegetative traits, such as leaf, root, and plant height, and ignored most regeneration traits, except for a few flower traits. A matrix to quantify the association between ES and selected plant traits (specific leaf area, leaf dry matter content, leaf area, leaf nitrogen content, vegetation height, wood density, canopy density, root length, root density, flowering time, flower color and flower size) revealed that the two leaf traits (specific leaf area and leaf dry matter content) in the linkage have contrasting associations with multiple ES. The study illustrated that there is still a considerable research gap in linking plant traits with essential ES (biomass production, climate and water regulation). Thus, suggest future studies on ES should focus more on trait–service linkage across major ecosystems to underpin key ecosystem processes for better sustenance of ES and human well-being.

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