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Climate Change and Rocky Mountain Ecosystems (2018)

Peterson, David L. 1954- ; Halofsky, Jessica E.

Cham : Springer

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Keywords: Environment ; Climate change ; Ecosystems ; Wildlife ; Fish ; Natural resources ; Rocky Mountains ; Klimaänderung ; Ökosystem

Description / Table of Contents: This book is the result of a team of approximately 100 scientists and resource managers who worked together for two years to understand the effects of climatic variability and change on water resources, fisheries, forest vegetation, non-forest vegetation, wildlife, recreation, cultural resources and ecosystem services. Adaptation options, both strategic and tactical, were developed for each resource area. This information is now being applied in the northern rocky Mountains to ensure long-term sustainability in resource conditions. The volume chapters provide a technical assessment of the effects of climatic variability and change on natural and cultural resources, based on best available science, including new analyses obtained through modeling and synthesis of existing data. Each chapter also contains a summary of adaptation strategies (general) and tactics (on-the-ground actions) that have been developed by science-management teams

Type of Medium: Online Resource

Pages: Online-Ressource (XVII, 236 p. 42 illus., 37 illus. in color, online resource)

ISBN: 9783319569284

Series Statement: Advances in Global Change Research 63

URL: https://doi.org/10.1007/978-3-319-56928-4

URL: https://swbplus.bsz-bw.de/bsz491754280cov.jpg

DOI: 10.1007/978-3-319-56928-4

Language: English

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Electronic Resource

Monitoring Air Quality in Mountains: Designing an Effective Network (2000)

Peterson, David L.

Springer

Environmental monitoring and assessment 64 (2000), S. 81-91

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ISSN: 1573-2959

Keywords: air pollution ; air quality ; monitoring network ; mountainous regions ; multi-scale assessment ; spatial and temporal scales ; tropospheric ozone

Source: Springer Online Journal Archives 1860-2000

Topics: Energy, Environment Protection, Nuclear Power Engineering

Notes: Abstract A quantitatively robust yet parsimonious air-quality monitoring network in mountainous regions requires special attention to relevant spatial and temporal scales of measurement and inference. The design of monitoring networks should focus on the objectives required by public agencies, namely: 1) determine if some threshold has been exceeded (e.g., for regulatory purposes), and 2) identify spatial patterns and temporal trends (e.g., to protect natural resources). A short-term, multi-scale assessment to quantify spatial variability in air quality is a valuable asset in designing a network, in conjunction with an evaluation of existing data and simulation-model output. A recent assessment in Washington state (USA) quantified spatial variability in tropospheric ozone distribution ranging from a single watershed to the western third of the state. Spatial and temporal coherence in ozone exposure modified by predictable elevational relationships (∼ 1.3 ppbv ozone per 100 m elevation gain) extends from urban areas to the crest of the Cascade Range. This suggests that a sparse network of permanent analyzers is sufficient at all spatial scales, with the option of periodic intensive measurements to validate network design. It is imperative that agencies cooperate in the design of monitoring networks in mountainous regions to optimize data collection and financial efficiencies.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1006498704222

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Paper (German National Licenses)

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