植物功能特征在入侵成功中的作用:对九种菊科植物的分析。

IF 5.4 3区 材料科学 Q2 CHEMISTRY, PHYSICAL
Amarpreet Kaur, Aditi Sharma, Shalinder Kaur, Manzer H Siddiqui, Saud Alamri, Mustaqeem Ahmad, Ravinder Kumar Kohli, Harminder Pal Singh, Daizy Rani Batish
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引用次数: 0

摘要

据推测,入侵物种的各种特性有助于其在非本地地理和生态环境中占据优势地位。为了探索菊科植物的入侵特性,我们对喜马拉雅西部地区共生的九种菊科植物进行了比较研究。根据其原生性和入侵状况,这些物种被分为 "入侵"、"归化 "和 "原生 "三类。对测试物种中与入侵密切相关的 15 种植物功能特征进行了研究。分析表明,"入侵 "和 "原生 "类别所代表的所有植物功能特征(叶碳[Leaf C]除外)与 "归化 "和 "原生 "类别所代表的大多数特征(叶面积[LA]、叶氮[Leaf N]、叶碳和叶碳氮比[C:N]除外)之间存在很大差异。同样,"入侵 "和 "归化 "类别在大多数性状上也有显著差异(叶氮、叶 C、每平方米群体的头状花序[Cm²]、每头状花序的种子[Scapitula]和种子质量除外)。入侵物种的特征是 LA、比叶面积[SLA]和发芽率高,而 C:N 和叶片构建成本[LCC]低。本地物种的大多数特征都证明了它们的非入侵行为;这意味着在所有生态系统和/或系统发育群中,这些功能方面对物种入侵潜力的作用并不一致。PCA 的结果表明,在菊科物种中,性状差异比归化对入侵成功率的影响更大。本研究旨在完善与菊科相关的入侵概念,以确保更准确地识别潜在入侵者并更好地管理现有入侵者。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Role of plant functional traits in the invasion success: analysis of nine species of Asteraceae.

Various attributes are hypothesized to facilitate the dominance of an invasive species in non-native geographical and ecological regimes. To explore the characteristic invasive attributes of the family Asteraceae, a comparative study was conducted among nine species of this family, co-occurring in the western Himalayan region. Based on their nativity and invasion status, the species were categorized as "Invasive", "Naturalized", and "Native". Fifteen plant functional traits, strongly linked with invasion, were examined in the test species. The analyses revealed a strong dissimilarity between all the plant functional traits (except leaf carbon [Leaf C]) represented by "Invasive" and "Native" categories and most of the traits (except leaf area [LA], leaf nitrogen [Leaf N], Leaf C, and leaf carbon-nitrogen ratio [C: N]) represented by the "Naturalized" and "Native" categories. Similarly, "Invasive" and "Naturalized" categories also varied significantly for most of the traits (except Leaf N, Leaf C, capitula per m² population [C], seeds per capitula [Scapitula], and seed mass). Invasive species are characterized by high LA, specific leaf area [SLA] and germination, and low C:N and leaf construction costs [LCC]. Most of the traits represented by native species justify their non-invasive behavior; whereas the naturalized species, despite having better size metrics (plant height), resource investment strategy (aboveground non-reproductive biomass [BNR], and aboveground reproductive biomass [BR]), and reproductive output (capitula per individual plant [Cplant], and seeds per individual plant [Splant]) failed to invade, which implies that the role of these functional aspects in imparting invasion potential to a species is not consistent in all the ecosystems and/or phylogenetic groups. Results of PCA revealed that trait divergence plays a more imperative role in invasion success than naturalization in the species of the family Asteraceae. The present study is intended to refine the pre-generalized invasion concepts associated with family Asteraceae to ensure more accurate identification of the potential invaders and better management of the existing ones.

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来源期刊
ACS Applied Energy Materials
ACS Applied Energy Materials Materials Science-Materials Chemistry
CiteScore
10.30
自引率
6.20%
发文量
1368
期刊介绍: ACS Applied Energy Materials is an interdisciplinary journal publishing original research covering all aspects of materials, engineering, chemistry, physics and biology relevant to energy conversion and storage. The journal is devoted to reports of new and original experimental and theoretical research of an applied nature that integrate knowledge in the areas of materials, engineering, physics, bioscience, and chemistry into important energy applications.
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