A Preliminary Study on the Relationship between Arthropod Diversity and Vegetation Diversity in Four Contrasting Ecosystems in Hanthana Mountain Range of Sri Lanka, during the Post-Monsoon Dry Season.

IF 2.3 Q2 BIOLOGY

Scientifica Pub Date : 2023-11-16 eCollection Date: 2023-01-01 DOI:10.1155/2023/7608236

W A Manasee Weerathunga, A M Gihan Athapaththu, L D Amarasinghe

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Abstract

This study assesses the relationship between arthropod and vegetation diversity in four ecosystems with different types of vegetation, during a post-monsoonal season. We determined the arthropod diversity in vegetation surrounding an aquatic environment (AQ), a broad-leaved wet, evergreen forest ecosystem (BL), a Pinus caribaea monoculture plantation (PN), and a Pinus plantation artificially enriched with indigenous broad-leaved tree species (PNEN) located in the Hanthana mountain range, Sri Lanka. Arthropods randomly sampled from three randomly selected sites (5 m × 5 m) of each ecosystem were identified up to the highest possible taxa using standard identification keys. Woody and herbal vegetation was identified via a plant census. Arthropod and vegetation diversities were computed separately for each site using the Shannon-Wiener Index (H). Arthropods of 68 species and 43 families were found. AQ had the greatest arthropod diversity (H = 2.642), dominated by Olios spp., followed by BL (H = 2.444), dominated by a tettigonid species, Oxytate spp. and Psechrus spp. PN was third (H = 1.411), dominated by Dicaldispa spp. PNEN had the lowest (H = 1.3500), dominated by an ant species. Contrastingly, PNEN had the highest plant diversity (H = 2.614) and PN, the lowest (H = 0.879). In AQ, BL, and PN, the arthropod diversity was linearly dependent on plant diversity (R² = 0.423, p ≤ 0.001), whereas it was not so when PNEN was also included (R² = 0.008, p ≤ 0.001). This shows that higher plant diversity contributes to greater arthropod diversity in ecosystems where human intervention is minimal. But this pattern was not visible in PNEN, which is an artificially created ecosystem.

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斯里兰卡汉萨纳山地4个不同生态系统节肢动物多样性与植被多样性关系的初步研究

本研究评估了季风后季节四个不同植被类型生态系统中节肢动物与植被多样性的关系。研究了斯里兰卡汉萨纳山区水生环境(AQ)、阔叶湿常绿森林生态系统(BL)、加勒比松单一人工林(PN)和本土阔叶树种人工富集松林(PNEN)周围植被的节肢动物多样性。在每个生态系统随机选取3个地点(5 m × 5 m)随机取样节肢动物，利用标准识别键对最大可能的类群进行鉴定。通过植物普查确定了木本植物和草本植物。利用Shannon-Wiener指数(H)分别计算各样点节肢动物和植被多样性，共发现43科68种节肢动物。AQ节肢动物多样性最高(H = 2.642)，以Olios spp为优势种，BL次之(H = 2.444)，以一种剑齿类、Oxytate spp和Psechrus spp为优势种，PN次之(H = 1.411)，以Dicaldispa spp为优势种，PNEN最低(H = 1.3500)，以一种蚂蚁为优势种。PNEN的植物多样性最高(H = 2.614)， PN最低(H = 0.879)。在AQ、BL和PN中，节肢动物多样性与植物多样性呈线性相关(R2 = 0.423, p≤0.001)，而在PNEN中，节肢动物多样性与植物多样性呈线性相关(R2 = 0.008, p≤0.001)。这表明，在人类干预最少的生态系统中，较高的植物多样性有助于提高节肢动物的多样性。但这种模式在PNEN中是不可见的，这是一个人工创造的生态系统。

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来源期刊

Scientifica BIOLOGY-

CiteScore

6.70

自引率

0.00%

发文量

审稿时长

21 weeks

期刊介绍： Scientifica is a peer-reviewed, Open Access journal that publishes research articles, review articles, and clinical studies covering a wide range of subjects in the life sciences, environmental sciences, health sciences, and medicine. The journal is divided into the 65 subject areas.