D
Donald L. DeAngelis
Researcher at United States Geological Survey
Publications - 297
Citations - 26031
Donald L. DeAngelis is an academic researcher from United States Geological Survey. The author has contributed to research in topics: Population & Mutualism (biology). The author has an hindex of 56, co-authored 291 publications receiving 23885 citations. Previous affiliations of Donald L. DeAngelis include University of Miami & University of Alabama in Huntsville.
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Journal ArticleDOI
A Framework for Quantitative Assessment of Impacts Related to Energy and Mineral Resource Development
Seth S. Haines,Jay E. Diffendorfer,Laurie S. Balistrieri,Byron R. Berger,Troy A. Cook,Troy A. Cook,Donald L. DeAngelis,Holly Doremus,Donald L. Gautier,Tanya J. Gallegos,Margot Gerritsen,Elisabeth A. Graffy,Sarah J. Hawkins,Kathleen M. Johnson,Jordan Macknick,Peter B. McMahon,Tim Modde,Brenda S. Pierce,John H. Schuenemeyer,Darius J. Semmens,Benjamin Simon,Jason J. Taylor,Jason J. Taylor,Katie Walton-Day +23 more
TL;DR: An algorithm for consistent, reproducible, quantitative assessment of resource development impacts that enables quantitative evaluation of the trade-offs inherent in resource management decision-making, including cumulative impacts, to address societal concerns and policy aspects of resourceDevelopment.
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Modeling structural mechanics of oyster reef self-organization including environmental constraints and community interactions
Simeon Yurek,Mitchell J. Eaton,Romain Lavaud,R. Wilson Laney,Donald L. DeAngelis,William E. Pine,Megan K. La Peyre,Julien Martin,Peter C. Frederick,Hongqing Wang,Michael R. Lowe,Fred A. Johnson,Edward V. Camp,Rua S. Mordecai +13 more
TL;DR: In this paper, a three-dimensional individual-based model (IBM) of oyster reef mechanics is developed to examine the dynamics of self-organization in reef building.
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Modeling the dynamics of woody plant-herbivore interactions with age-dependent toxicity
TL;DR: It is shown that age dependence in plant chemical defenses has the capacity to cause hare–plant population cycles, a new result.
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Single species models with logistic growth and dissymmetric impulse dispersal
TL;DR: Impulsive dispersal seems to more nicely model natural dispersal behavior of populations and may be more relevant to the investigation of such behavior in real ecological systems.
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Effects of natal departure and water level on survival of juvenile snail kites (Rostrhamus sociabilis) in Florida
TL;DR: Examination of effects of various environmental factors and natal dispersal behavior on juvenile survival of endangered Snail Kites in central and southern Florida shows a positive relationship between water levels and juvenile survival, and suggests that higher water means higher juvenile survival.