利用空间分析方法在 COVID-19 大流行期间发展绿色基础设施

IF 5.4 Q1 ENVIRONMENTAL SCIENCES Environmental and Sustainability Indicators Pub Date : 2024-06-16 DOI:10.1016/j.indic.2024.100422
Dora Josefina Rocío de los Ángeles Guillén Tamayo , Leyla Elena Lascar Alarcón de Malpartida , Valkiria Raquel Ibárcena Ibárcena , Ginna Paola Cano Castro , Leslie Janina Mena Alanoca , Randy Branny Carreon Oviedo , Andreas Braun
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引用次数: 0

摘要

在拉丁美洲,缺乏绿色基础设施(GI)来增强城市复原力和降低传染水平,尤其是在大流行病时期。因此,需要一种简化的方法来定义关键公共卫生风险情景中的绿色基础设施,尤其是在获取地理空间信息有限的情况下。本研究的目的是提出一种名为 GreenNet-Covid19 的简化方法,在秘鲁关键公共卫生情景中使用空间分析方法来定义全球 GI 指数(GGII)并选择潜在的 GI 集成区域(PIAGI)。该方法基于 Aguileraet 等人(2018 年)提出的方法,后者在 COVID-19 大流行期间对阿雷基帕大都市及其周边地区进行了空间分析。在这项研究中,除了 Aguilera 等人(2018 年)提出的四个维度外,还引入了名为 "COVID-19 导致的风险 "的第五个维度,从而获得了 GGII 并定义了 PIAGI。在植被覆盖层面,GGII 显示出很高的生态和生物多样性潜力。然而,城市地区 GGII 连接性的丧失对高地错综复杂的连接性构成了威胁,从而增加了 COVID-19 传播的风险。同时,与 GGII 相比,PIAGI 的值相对较低。然而,城市地区 PIAGI 连接性的丧失加强了 COVID-19 的传播因素。COVID-19 风险层与 PIAGI 风险层在 "极高"、"高 "和 "中等 "级别上的交叉显示了在未来大流行中降低传染风险的高能力。由于该方法适用于任何拉丁美洲地区,因此有利于在地区规划中引入和实施该方法。
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Development of green infrastructure during the COVID-19 pandemic using spatial analysis methods

In Latin America, there is a lack of green infrastructure (GI) to enhance urban resilience and reduce the contagion levels, particularly in times of pandemic. Therefore, a simplified method is needed to define GI in critical public health risk scenarios, especially when access to geospatial information is limited. The objective of this study is to propose a simplified method called GreenNet-Covid19 in Peru during critical public health scenarios using spatial analysis methods to define the global GI index (GGII) and select the potential integration areas for GI (PIAGI). This method is based on the approach proposed by Aguileraet al. (2018), which utilized spatial analysis in Metropolitan Arequipa and its surroundings during the COVID-19 pandemic. In this study, in addition to the four dimensions proposed Aguilera et al. (2018), a fifth dimension called ‘risk due to COVID-19’ was introduced, allowing to obtain the GGII and define the PIAGI. The GGII showed high ecological and biodiversity potentials at the vegetation cover level. However, the loss of GGII connectivity in urban areas posed a threat to the intricate connectivity of the highlands, thus increasing the risk of COVID-19 spread. Meanwhile, the PIAGI exhibited relatively low values compared with those of the GGII. Yet, the loss of PIAGI connectivity in urban areas strengthened the factors contributing to COVID-19 propagation. The intersection between the COVID-19 and PIAGI risk layers at the ‘very high,’ ‘high,’ and ‘medium’ levels demonstrated a high capability for reducing the contagion risk in future pandemics. The introduction and implementation of this method in territorial planning is facilitated by its applicability to any Latin American territory.

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来源期刊
Environmental and Sustainability Indicators
Environmental and Sustainability Indicators Environmental Science-Environmental Science (miscellaneous)
CiteScore
7.80
自引率
2.30%
发文量
49
审稿时长
57 days
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