林农交错带鸟类物种丰富度与土地利用斑块结构和植被结构的关系

IF 0.5 4区生物学 Q4 ORNITHOLOGY

Ornithological Science Pub Date : 2020-01-27 DOI:10.2326/osj.18.147

Da-Li Lin, Shu-Wei Fu, Hsiao-Wei Yuan, Tzung-Su Ding

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引用次数: 3

摘要

摘要生境退化和破碎化是对全球生物多样性的严重威胁。植被结构和斑块结构的属性被认为是维持物种多样性的关键因素，但其相对重要性尚不清楚。本研究旨在确定鸟类物种丰富度的关键植被和斑块结构变量，并检验其相对重要性。我们在三个繁殖季节调查并绘制了50公顷林场景观镶嵌图中的所有鸟类个体，并记录了六种土地利用类型的286个斑块的植被。原生森林和针叶树种植园（覆盖59%的面积）包含89%的个体和所有记录的鸟类。植被结构变量、乔木家族丰富度和叶面积的影响比斑块结构变量更显著。尽管针叶树人工林的冠层乔木家族丰富度较低，但其亚冠层乔木家族丰度较高，并且具有与原生林相似的鸟类密度和物种丰富度值。创建和维护具有复杂植被结构的斑块对于支持动物数量和物种多样性至关重要。通过增加亚冠层的区系组成，可以极大地改善冠层中仅由少数树种主导的森林斑块。植被结构复杂的大型斑块对维持生物多样性很重要，应尽可能保持完整。

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Bird Species Richness in Relation to Land-Use Patch Structure and Vegetation Structure in a Forest-Agriculture Mosaic

Abstract Habitat degradation and fragmentation are serious threats to global biodiversity. Attributes of vegetation structure and patch structure have been considered critical factors in sustaining species diversity, but their relative importance remains unclear. This study aimed at identifying key vegetation and patch structure variables for bird species richness and examining their relative importance. We surveyed and mapped all individual birds in a 50-ha forest-farm landscape mosaic over three breeding seasons and recorded the vegetation in 286 patches of six land-use types. Native forests and conifer plantations (covering 59% of the area) contained 89% of the individuals and all of the bird species recorded. The effects of vegetation structure variables, tree family richness, and foliage coverage were more significant than those of patch-structure variables. Although conifer plantations were low in tree family richness of the canopy layer, they had a high tree family richness in the sub-canopy layer, and had similar bird density and species richness values as native forests. Creating and maintaining patches with a complex vegetation structure are critical for supporting animal abundance and species diversity. Forest patches dominated by only a few tree species in the canopy layer can be greatly improved by increasing the floristic composition of the sub-canopy layer. Large patches with a complex vegetation structure are important for sustaining biodiversity and should be kept as intact as possible.

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来源期刊

Ornithological Science ORNITHOLOGY-

CiteScore

1.20

自引率

0.00%

发文量

审稿时长

>12 weeks

期刊介绍： Ornithological Science publishes reviews, original articles, short communications and comments covering all aspects of ornithology. Manuscripts are judged on the basis of their contribution of original data and ideas or interpretation. All articles are peer-reviewed by at least two researchers expert in the field of the submitted paper. Manuscript are edited where necessary for clarify and economy. Ornithological Science aims to publish as rapidly as is consistent with the requirements of peer-review and normal publishing constraints.