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Wildland Fire Smoke in the United States : A Scientific Assessment (2022)

Peterson, David L. ; McCaffrey, Sarah M. ; Patel-Weynand, Toral

Cham : Springer International Publishing | Cham : Imprint: Springer

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Keywords: Natural disasters. ; Fire ecology. ; Forestry. ; Pollution. ; Biology. ; Earth sciences. ; Geography.

Description / Table of Contents: Chapter 1. Assessing the State of Smoke Science -- Chapter 2. Fuels and Consumption -- Chapter 3. Fire Behavior and Heat Release as Source Conditions for Smoke -- Chapter 4. Smoke Plume Dynamics -- Chapter 5. Emissions -- Chapter 6. Smoke Chemistry -- Chapter 7. Social, Economic, and Health Effects of Smoke -- Chapter 8. Resource Manager Perspectives on the Need for Smoke Science -- Appendix A: Regional Perspectives on Smoke Issues and Management -- Appendix B: Smoke Monitoring Networks, Models, and Mapping Tools.

Type of Medium: Online Resource

Pages: 1 Online-Ressource(XVI, 341 p. 63 illus., 50 illus. in color.)

Edition: 1st ed. 2022.

ISBN: 9783030870454

URL: https://doi.org/10.1007/978-3-030-87045-4

DOI: 10.1007/978-3-030-87045-4

Language: English

Note: Open Access

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Wildland Fire Smoke in the United States : A Scientific Assessment (2022)

Peterson, David L. [VerfasserIn]

Cham : Springer International Publishing AG

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Keywords: Electronic books

Description / Table of Contents: Intro -- Foreword -- Acknowledgments -- Disclaimer -- Contents -- 1 Assessing the State of Smoke Science -- 1.1 Recent Trends -- 1.2 Environmental and Social Context -- 1.3 Overview of This Assessment -- References -- 2 Fuels and Consumption -- 2.1 Introduction -- 2.1.1 Understanding How Fuels Contribute to Smoke -- 2.2 Wildland Fuels -- 2.2.1 Fuel Characteristics -- 2.2.2 Traditional Methods to Estimate Wildland Fuel Loadings -- 2.2.3 Emerging Technologies and Methods -- 2.3 Fuel Consumption -- 2.3.1 Indirect Estimates of Fuel Consumption -- 2.3.2 Direct Measures of Fuel Consumption -- 2.4 Gaps in Wildland Fuels Characterization -- 2.4.1 Scaling from Fine-Scale to Coarse-Scale Fuel Characterization -- 2.4.2 Challenges in Forest Floor Characterization -- 2.4.3 Modeling Spatial and Temporal Dynamics of Wildland Fuels -- 2.5 Vision for Improving Fuel Science in Support of Smoke Science -- 2.6 Science Delivery to Managers -- 2.7 Research Needs -- 2.8 Conclusions -- References -- 3 Fire Behavior and Heat Release as Source Conditions for Smoke Modeling -- 3.1 Introduction -- 3.2 Current State of Science -- 3.2.1 Representing Fire in Smoke Models -- 3.2.2 Remote Sensing -- 3.2.3 Effects of Management Actions -- 3.3 Gaps in Understanding the Link Between Fire Behavior and Plume Dynamics -- 3.3.1 Heat Release -- 3.3.2 Fire Spread -- 3.3.3 Plume Cores -- 3.4 Vision for Improving Smoke Science -- 3.5 Emerging Issues and Challenges -- 3.5.1 Magnitude of Fire and Smoke Impacts -- 3.5.2 Managing Fuels to Minimize Air Quality Impacts -- 3.5.3 Need for Dispersion Climatologies -- 3.5.4 When and Where is Coupled Fire-Atmosphere Modeling Needed? -- 3.6 Conclusions -- 3.7 Key Findings -- 3.8 Key Information Needs -- References -- 4 Smoke Plume Dynamics -- 4.1 Introduction -- 4.1.1 Scientific Significance -- 4.1.2 Management Significance.

Type of Medium: Online Resource

Pages: 1 online resource (346 pages)

ISBN: 9783030870454

URL: https://ebookcentral.proquest.com/lib/kxp/detail.action?docID=6978256

Language: English

Note: Description based on publisher supplied metadata and other sources

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Electronic Resource

COLUMBIA RIVER FLOW AND DROUGHT SINCE 1750 (2004)

Gedalof, Ze'ev ; Peterson, David L. ; Mantua, Nathan J.

Oxford, UK : Blackwell Publishing Ltd

Journal of the American Water Resources Association 40 (2004), S. 0

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ISSN: 1752-1688

Source: Blackwell Publishing Journal Backfiles 1879-2005

Topics: Architecture, Civil Engineering, Surveying , Geography

Notes: : A network of 32 drought sensitive tree-ring chronologies is used to reconstruct mean water year flow on the Columbia River at The Dalles, Oregon, since 1750. The reconstruction explains 30 percent of the variability in mean water year (October to September) flow, with a large portion of unexplained variance caused by underestimates of the most severe low flow events. Residual statistics from the tree-ring reconstruction, as well as an identically specified instrumental reconstruction, exhibit positive trends over time. This finding suggests that the relationship between drought and streamflow has changed over time, supporting results from hydrologic models, which suggest that changes in land cover over the 20th Century have had measurable impacts on runoff production. Low pass filtering the flow record suggests that persistent low flows during the 1840s were probably the most severe of the past 250 years, but that flows during the 1930s were nearly as extreme. The period from 1950 to 1987 is anomalous in the context of this record for having no notable multiyear drought events. A comparison of the flow reconstruction to paleorecords of the Pacific Decadal Oscillation (PDO) and El Nino/Southern Oscillation (ENSO) support a strong 20th Century link between large scale circulation and streamflow, but suggests that this link is very weak prior to 1900.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1111/j.1752-1688.2004.tb01607.x

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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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