Detecting and Restoring Gaps Among Forest Patches: AN Achievable and Replicable Proposal to Boost the Landscape Connectivity

IF 0.6 Q4 ENGINEERING, CIVIL
Ludmila Araújo Bortoleto, J. Rodgers, A. M. da Silva
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引用次数: 0

Abstract

Abstract It is well known that one of the main impacts caused by land cover change is the process of forest fragmentation. Connecting the remaining fragments is always an exercise for technicians and academics, and even corridors of remaining vegetation usually present places of forest discontinuity, lacking connection strategies for the corridor to gain a real function. In this paper, we applied a model structured to identify priority locals to implement connectors. We used a GIS package and a digital, georeferenced satellite image. We complemented the project by surveying a database through a drone-based field survey. The integration of data revealed that for our studied area (Sorocaba, SP Brazil) 42.5% need assisted restoration. The mapping also revealed the existence of 25 forest fragments larger than 50 ha, arranged chiefly in one single corridor but disconnected from each other. Hence, through the application of the model, we could localize nine strategic locations in distances as short as possible among the fragments, feasible to implement a connector with the economy of resources and expect satisfactory performance in ecological terms. The database generated by the drone-based survey helped us to assert
检测和恢复森林斑块之间的间隙:促进景观连通性的可实现和可复制的建议
摘要众所周知,土地覆盖变化的主要影响之一是森林破碎化过程。连接剩余的碎片始终是技术人员和学者的一项工作,即使是剩余植被的走廊也通常存在森林不连续的地方,缺乏使走廊获得真正功能的连接策略。在本文中,我们应用了一个结构为识别优先级局部的模型来实现连接器。我们使用了地理信息系统软件包和数字地理参考卫星图像。我们通过无人机实地调查对数据库进行了调查,以此作为对该项目的补充。数据整合显示,对于我们研究的地区(Sorocaba,SP Brazil),42.5%需要辅助修复。测绘还显示,存在25块面积超过50公顷的森林碎片,主要排列在一条走廊上,但彼此分离。因此,通过该模型的应用,我们可以在碎片中尽可能短的距离内定位九个战略位置,在资源经济的情况下实现连接器是可行的,并期望在生态方面取得令人满意的性能。基于无人机的调查生成的数据库帮助我们断言
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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来源期刊
自引率
14.30%
发文量
40
审稿时长
52 weeks
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