INCORPORATING GEOGRAPHIC INFORMATION TECHNOLOGIES INTO A FRAMEWORK FOR BIOLOGICAL DIVERSITY CONSERVATION AND PREVENTING BIOLOGICAL THREATS TO LANDSCAPES

Pub Date : 2023-04-28 DOI:10.15407/knit2023.02.010
T. Fedoniuk, О. Skydan
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引用次数: 2

Abstract

As the long-term sustainability of both natural and artificial phytocenoses is under serious threat from biological invaders, the global community is working hard to prevent invasions and rapidly eradicate or halt the spread of invasive species. By tracking the actual spread of “invaders” or predicting areas at risk of invasion, geographic information systems (GIS) and remote sensing of the Earth (RSE) can significantly assist the process of ensuring biosecurity at the state level. Research has shown the potential of remote sensing and GIS applications for invasive species mapping and modeling, even though it is currently restricted to a small number of taxa. This article gives examples of how GIS and RSE can be used to track invasive species like Utricularia australis R. br. and Lemna aequinoctialis Welw. To describe the distribution of species, current Internet databases of species distribution and the author’s own research were used. It also talks about promising ways to find and track the spread of invasive species, like using NDVI indices, chlorophyll and xanthophyll content to find changes in regional biodiversity, some problems with finding changes in biodiversity in agricultural landscapes, and mapping invasion risk. The study also demonstrates how GIS technology may be used to identify agricultural landscape biodiversity using radiometric space data from Sentinel 1, followed by a verification of the findings. The prospects of spatial, spectral, and temporal analysis of images are determined, as they make it possible to outline the boundaries of ecosystems, biometric characteristics of species, characteristics of their current and potential areas of distribution, etc.
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将地理信息技术纳入生物多样性保护和防止景观生物威胁的框架
由于天然和人工植物群落的长期可持续性受到生物入侵的严重威胁,国际社会正在努力防止入侵并迅速根除或阻止入侵物种的传播。地理信息系统(GIS)和地球遥感(RSE)通过跟踪“入侵者”的实际传播或预测有入侵风险的地区,可以显著地协助确保国家一级的生物安全进程。研究表明,遥感和地理信息系统应用于入侵物种制图和建模的潜力,尽管目前仅限于少数分类群。本文举例说明了GIS和RSE如何用于跟踪澳大利亚水蛭等入侵物种。和羊耳草。为了描述物种的分布,我们使用了现有的互联网物种分布数据库和作者自己的研究。它还讨论了寻找和跟踪入侵物种传播的有前途的方法,如利用NDVI指数、叶绿素和叶黄素含量来发现区域生物多样性的变化,发现农业景观生物多样性变化的一些问题,以及绘制入侵风险。该研究还展示了如何利用地理信息系统技术利用Sentinel 1的辐射空间数据来识别农业景观生物多样性,然后对研究结果进行验证。确定了图像的空间、光谱和时间分析的前景,因为它们可以勾勒出生态系统的边界、物种的生物特征、它们当前和潜在分布区域的特征等。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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