Critical zone science in the Western US—Too much information?

IF 2.6 Q2 WATER RESOURCES Frontiers in Water Pub Date : 2023-11-02 DOI:10.3389/frwa.2023.1226612
Christina Tague, W. Tyler Brandt
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Abstract

Exponentially growing publication rates are increasingly problematic for interdisciplinary fields like Critical Zone (CZ) science. How does one “keep up” across different, but related fields with unique hypotheses, field techniques, and models? By surveying CZ academics in the Western US, a region with substantial CZ research, we document the challenge. While conventional knowledge synthesis products-particularly review papers clearly support knowledge transfer, they are static and limited in scope. More informal paths for knowledge transfer, including social networking at conferences and academic mentorship, are useful but are unstructured and problematic for young scientists or others who may not have access to these resources. While new machine-learning tools, including ChatGPT, offer new ways forward for knowledge synthesis, we argue that they do not necessarily solve the problem of information overload in CZ Science. Instead, we argue that what we need is a community driven, machine aided knowledge tool that evolves and connects, but preserves the richness of detail found in peer-reviewed papers. The platform would be designed by CZ scientists, machine-aided and built on the strengths of people-driven synthesis. By involving the scientist in the design of this tool, it will better reflect the practice of CZ science-including hypothesis generation, testing across different time and space scales and in different time periods and locations, and, importantly, the use and evaluation of multiple, often sophisticated methods including fieldwork, remote sensing, and modeling. We seek a platform design that increases the findability and accessibility of current working knowledge while communicating the CZ science practice.
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美国西部的关键地带科学——信息太多?
指数级增长的出版率对于像临界区科学这样的跨学科领域来说越来越成问题。如何通过独特的假设、领域技术和模型“跟上”不同但相关的领域?通过调查美国西部(一个拥有大量CZ研究的地区)CZ学者,我们记录了这一挑战。虽然传统的知识合成产品——尤其是综述论文——明确支持知识转移,但它们是静态的,范围有限。更非正式的知识转移途径,包括会议上的社交网络和学术指导,是有用的,但对于年轻科学家或其他可能无法获得这些资源的人来说,是不结构化的和有问题的。虽然包括ChatGPT在内的新机器学习工具为知识合成提供了新的方法,但我们认为它们不一定能解决CZ Science中的信息过载问题。相反,我们认为,我们需要的是一个社区驱动的、机器辅助的知识工具,它可以发展和联系,但保留同行评议论文中发现的丰富细节。该平台将由CZ科学家设计,机器辅助,并以人为驱动的合成优势为基础。通过让科学家参与该工具的设计,它将更好地反映CZ科学的实践-包括假设生成,跨不同时间和空间尺度,不同时间段和地点的测试,以及重要的是,使用和评估多种,通常是复杂的方法,包括实地调查,遥感和建模。我们寻求一个平台设计,增加当前工作知识的可查找性和可访问性,同时沟通CZ科学实践。
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来源期刊
Frontiers in Water
Frontiers in Water WATER RESOURCES-
CiteScore
4.00
自引率
6.90%
发文量
224
审稿时长
13 weeks
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