基于野外采样数据的景观格局现状与趋势分析

Q3 Agricultural and Biological Sciences caspian journal of environmental sciences Pub Date : 2021-07-01 DOI:10.22124/CJES.2021.4921
H. Ramezani, F. Ramezani
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引用次数: 0

摘要

传统上,景观指标的计算通常在根据遥感数据创建的整个景观的土地覆盖/使用图上进行。然而,一种有趣的方法是使用样本数据,而不使用墙到墙的映射。在本综述和案例研究中,旨在从实地采样数据中估计三个基本的景观指标,即香农多样性(SH)、森林边缘长度(E)和传染病(C)。它还旨在使用时间序列数据集来估计景观变化。估计方差(抽样误差)用于评估景观度量估计量。为此,使用了瑞典国家景观调查(NILS)的抽样数据。在本案例研究中,以可接受的精度对度量进行了估计。在大多数情况下,估计方差(抽样误差)小于10%。森林边缘长度的最大采样误差为28%。我们将能够使用基于现场的采样数据来比较给定时间的不同景观或一段时间内的景观。此外,在生态调查中,可能会发现景观格局与生物多样性等生态过程之间的关系。本研究中使用的方法非常简单,不需要额外的测量。
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Status and trend analysis in landscape pattern through field-based sampling data
Traditionally, calculation of landscape metrics is commonly conducted on land cover/use maps of entire landscape which is created from remotely sensed data. An interesting approach, however, is to make use of sample data, without the use of wall-to-wall mapping. In the present review and case study, it is aimed to estimate three basic landscape metrics, namely Shannon’s diversity (SH), forest edge length (E) and contagion (C) from field-based sampling data. It is also intended to estimate landscape change using time series datasets. Estimated variance (sampling error) was used to assess landscape metric estimators. For this purpose, sampling data from National Inventory in the Landscape of Sweden (NILS) is used. In this case study, the metrics are estimated with acceptable precision. In most cases, the estimated variance (sampling error) was less than 10 %. The largest sampling error was 28 % for forest edge length. We will be able to compare different landscape at a given time or a landscape over time using filed-based sampling data. Furthermore, in an ecological survey it may be possible to find a relationship between landscape pattern and ecological processes such as biodiversity. The methods applied in this study is very simple and there is no need for extra measurements.
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来源期刊
caspian journal of environmental sciences
caspian journal of environmental sciences Environmental Science-Environmental Science (all)
CiteScore
2.30
自引率
0.00%
发文量
0
审稿时长
5 weeks
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