DISES: Integrating environmental justice into urban forest assessment and valuation tools: blueprint for the future

DISES：将环境正义纳入城市森林评估和估价工具：未来蓝图

• 批准号: 2206358
• 负责人: Alexandra Ponette
• 金额: $ 154.92万
• 依托单位: University of North Texas
• 依托单位国家: 美国
• 项目类别: Standard Grant
• 财政年份: 2023
• 资助国家: 美国
• 起止时间: 2023-01-15 至 2023-04-30
• 项目状态: 已结题
• 来源: https://www.nsf.gov/awardsearch/showAward?AWD_ID=2206358&HistoricalAwards=false
• 关键词: DISES; Integrating; environmental; justice; into

Urban forests provide communities with diverse benefits––including reduced exposure to poor air quality, stormwater runoff, excessive heat, and other health hazards. These benefits, or ecosystem services, are estimated to save urban residents billions of dollars annually. Increasingly, cities rely on digital technologies to monitor, plan, and manage urban forests and their ecosystem services. In theory, digital technologies aid in urban forest management decisions that improve environmental and human well-being. In practice, it remains unclear by whom, how, and in what context these technologies are implemented and the resultant outcomes. This award aims to understand to what extent digital technologies: (1) facilitate equitable access to tree-based ecosystem services; (2) involve urban residents in decision-making processes surrounding urban forests; and (3) represent peoples’ values and preferences for urban trees. The overarching goal of the project is to improve urban forest sustainability and equity at the human-technology frontier.Given the significant role of technology in urban green infrastructure planning and development, urban forests have become a locus of interactions and feedbacks between social, ecological, and technological systems. In cities worldwide, decision makers rely heavily on urban forest assessment and valuation tools to quantify the ecological structure (e.g., tree canopy), function (e.g., air pollution removal), and economic value (i.e., dollars saved) of urban forests. Recent advances allow users to prioritize areas within cities for tree planting, further guiding decision-making processes. Thus, digital forest technologies have the potential to influence access to urban trees and their benefits (distributional justice), participation in decisions surrounding urban forests (procedural and recognition justice), and equity through prioritization of certain values over others (recognition justice). This award asks: How can urban forest assessment and valuation tools integrate equity concerns and participatory processes to support procedural, recognition, and distributional justice in urban forestry? Using i-Tree as a model system, this award will investigate the mechanisms by which digital tools influence forest governance and equity (i.e., through participation and recognition) and potential canopy pollution removal (i.e., through benefits estimates and area prioritizations). Research will be conducted in multiple cities using a multi-scalar, mixed methods approach, including institutional analysis, survey and interview questions designed to facilitate participatory processes, leaf particulate matter sampling, and geospatial analysis using Geographic Information Systems (GIS), remote sensing, and land use regression modeling. The project draws on frameworks, approaches, and technologies from social science, ecology, geospatial science, and visual design to better understand the development and implications of human-technology partnerships in urban forest planning and management. Further, by creatively integrating environmental justice into a major model system for urban forest assessment and valuation, results could provide an example roadmap for other cities to follow, potentially transforming urban forest planning and management into a more just system.This award reflects NSF's statutory mission and has been deemed worthy of support through evaluation using the Foundation's intellectual merit and broader impacts review criteria.

城市森林为社区提供了各种好处--包括减少暴露在糟糕的空气质量、雨水径流、过热和其他健康危害中。据估计，这些好处或生态系统服务每年为城市居民节省数十亿美元。城市越来越依赖数字技术来监测、规划和管理城市森林及其生态系统服务。从理论上讲，数字技术有助于城市森林管理决策，改善环境和人类福祉。在实践中，由谁、如何以及在什么背景下实施这些技术以及由此产生的结果仍然不清楚。该奖项旨在了解数字技术在多大程度上：(1)促进公平获得以树木为基础的生态系统服务；(2)让城市居民参与城市森林周围的决策过程；(3)代表人们对城市树木的价值观和偏好。该项目的总体目标是在人-技术前沿提高城市森林的可持续性和公平性。鉴于技术在城市绿色基础设施规划和发展中的重要作用，城市森林已成为社会、生态和技术系统之间相互作用和反馈的场所。在世界各地的城市，决策者严重依赖城市森林评估和估值工具来量化城市森林的生态结构(例如，树冠)、功能(例如，消除空气污染)和经济价值(即，节省的资金)。最近的进步使用户能够优先考虑城市内的植树区域，从而进一步指导决策过程。因此，数字森林技术有可能影响城市树木的获取及其惠益(分配正义)、参与有关城市森林的决策(程序正义和承认正义)，以及通过将某些价值优先于其他价值而实现公平(承认正义)。该奖项的问题是：城市森林评估和估值工具如何整合股权关注和参与性进程，以支持城市森林的程序、认可和分配正义？使用i-Tree作为模式系统，该奖项将调查数字工具影响森林治理和公平(即通过参与和认可)和潜在的树冠污染消除(即通过效益估计和区域优先排序)的机制。将使用多标量混合方法在多个城市进行研究，包括机构分析、旨在促进参与进程的调查和访谈问题、树叶颗粒物采样，以及使用地理信息系统、遥感和土地利用回归建模进行地理空间分析。该项目借鉴了社会科学、生态学、地理空间科学和视觉设计的框架、方法和技术，以更好地了解人-技术伙伴关系在城市森林规划和管理中的发展和影响。此外，通过创造性地将环境正义整合到城市森林评估和评估的主要模式系统中，结果可以为其他城市提供一个范例路线图，潜在地将城市森林规划和管理转变为一个更公正的系统。该奖项反映了NSF的法定使命，并通过使用基金会的智力优势和更广泛的影响审查标准进行评估，被认为值得支持。