Collaborative Research: GCR: Growing a New Science of Landscape Terraformation: The Convergence of Rock, Fluids, and Life to form Complex Ecosystems Across Scales

合作研究：GCR：发展景观改造的新科学：岩石、流体和生命的融合形成跨尺度的复杂生态系统

• 批准号: 2121155
• 负责人: Scott Saleska
• 金额: $ 351.38万
• 依托单位: University of Arizona
• 依托单位国家: 美国
• 项目类别: Continuing Grant
• 财政年份: 2021
• 资助国家: 美国
• 起止时间: 2021-10-01 至 2026-09-30
• 项目状态: 未结题
• 来源: https://www.nsf.gov/awardsearch/showAward?AWD_ID=2121155&HistoricalAwards=false
• 关键词: Collaborative; Research; GCR; Growing; New

The U.S. and the world today face the increasingly urgent question of how to better understand and manage complex physical-biological systems in order to address pressing problems such as: restoration of degraded landscapes, sustainable management of ecosystem services, including water cycling and supply, ecosystem nutrition, biodiversity, carbon sequestration in the face of global change, and eventually, terraforming planets beyond earth. At the root of these problems is the fundamental question of landscape terraformation: how does life expand and sustain itself, in increasingly complex and symbiotic forms, across landscapes at multiple scales to transform bare rock into complex multi-function ecosystems? This Growing Convergence Research team of earth scientists (hydrologists, geochemists), biologists (evolutionary genomicists, ecosystem ecologists), and social scientists (anthropologists who study cultures of science) will leverage a unique and powerful “convergence instrument” -- University of Arizona’s Landscape Evolution Observatory, consisting of three large experimental hillslopes at Biosphere 2 -- to both reveal key mechanisms of landscape terraformation and catalyze new ways of interdisciplinary thinking to empower and diversify this next generation of scientists to achieve convergence research. The central investigation of this work is of how small scale hydrological, geochemical, ecological and evolutionary processes interact to create emergent landscape-scale terraformation, across three stages of biological complexity: from simple lithotrophic microbial communities (including microbial crusts), to non-vascular plants (mosses without roots), to vascular plants with roots and sophisticated hydraulic architectures. Experiments will test model representations of water flow through landscapes, its effects on the transformation of rock via weathering at different scales, and thence, feedbacks which modify those landscapes and their biological habitability. At the same time, the composition and function of organisms as they colonize barren landscapes and develop symbiotic associations (especially for N fixation) will be manipulated to select from biological diversity in genes, traits, and functions, in order to identify the biological feedbacks which simultaneously transform hydrological and geochemical processes. In the process, convergence research will be studied, understood, and reflected through a novel, social science-based “Cultures of Convergence Science” investigation of the entire team in an ethnographic inquiry designed to identify practices conducive to successful convergence research. This proposal is supported in part by theCritical Zone Collaborative Network program.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.

当今美国和世界面临着日益紧迫的问题，即如何更好地理解和管理复杂的物理生物系统，以解决紧迫的问题，例如：恢复退化景观、生态系统服务的可持续管理，包括水循环和供应、生态系统面对全球变化的营养、生物多样性、碳固存，以及最终对地球以外的行星进行地球化改造，这些问题的根源是景观改造的基本问题：生命如何以日益复杂和共生的形式扩展和维持自身。这个由地球科学家（水文学家、地球化学家）、生物学家（进化基因组学家、生态系统生态学家）和社会科学家（研究科学文化的人类学家）组成的日益融合的研究团队是否可以在多个尺度上跨越景观，将裸露的岩石转变为复杂的多功能生态系统？将利用独特而强大的“融合工具”——亚利桑那大学的景观演化观测站，由生物圈 2 号的三个大型实验山坡组成——揭示景观地形改造的关键机制促进跨学科思维的新方法，使下一代科学家能够实现融合研究，并使其多样化，这项工作的中心研究是小规模的水文、地球化学、生态和进化过程如何相互作用，以创造跨领域的新兴景观规模的地形改造。生物复杂性的三个阶段：从简单的石营养微生物群落（包括微生物结皮），到非维管植物（没有根的苔藓），到具有根和复杂水力结构的维管植物。水流通过景观的模型表示，它通过不同尺度的风化对岩石转变的影响，以及改变这些景观及其生物宜居性的反馈。同时，生物体在贫瘠景观中定居时的组成和功能。并发展共生关联（特别是固氮），以从基因、性状和功能的生物多样性中进行选择，以确定同时改变水文和地球化学过程的生物反馈。在此过程中，融合研究将进行。通过对整个团队进行一项新颖的、基于社会科学的“融合科学文化”调查来研究、理解和反映，该调查旨在确定有利于成功融合研究的实践。网络计划。该奖项反映了 NSF 的法定使命，并通过使用基金会的智力价值和更广泛的影响审查标准进行评估，被认为值得支持。