Jonathan J. Borrelli
Jonathan J. Borrelli
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A review of spatial structure of freshwater food webs: issues and opportunities modelling within-lake meta-ecosystems
Jonathan J. Borrelli
,
Rick A. Relyea
Effects of Freshwater Salinization and Biotic Stressors on Amphibian Morphology
Jacquelyn L. Lewis
,
Jonathan J. Borrelli
,
Devin K. Jones
,
Rick A. Relyea
Fluorometer optical path interference via zooplankton phototaxis: Implications for high‐frequency data collection
Vincent M. Moriarty
,
Mark A. Lucius
,
Kenneth E. Johnston
,
Jonathan J. Borrelli
,
Brian M. Mattes
,
Alexander R. Pezzuoli
,
Campbell D. Watson
,
Lawrence W. Eichler
,
Rick A. Relyea
The Combined Effects of Road Salt and Biotic Stressors on Amphibian Sex Ratios
Sagan Leggett
,
Jonathan J. Borrelli
,
Devin K. Jones
,
Rick A. Relyea
Marsh Plants Enhance Coastal Marsh Resilience by Changing Sediment Oxygen and Sulfide Concentrations in an Urban, Eutrophic Estuary
Mary Alldred
,
Jonathan J. Borrelli
,
Timothy Hoellein
,
Denise Bruesewitz
,
Chester Zarnoch
Concurrent improvement and deterioration of epilimnetic water quality in an oligotrophic lake over 37 years
Many water quality variables were monitored over a 36 year period. Some went up, some went down, many were stable.
William D. Hintz
,
Matthew S. Schuler
,
Jonathan J. Borrelli
,
Lawrence W. Eichler
,
Aaron B.Stoler
,
Vincent W. Moriarty
,
Laurie E. Ahrens
,
Charles W. Boylen
,
Sandra A. Nierzwicki-Bauer
,
Rick A. Relyea
Selection on stability across ecological scales
Many ecological patterns can be explained by the selective loss of structures are less likely to be stable.
Jonathan J. Borrelli
,
Stefano Allesina
,
Priyanga Amarasekare
,
Roger Arditi
,
Ivan Chase
,
John Damuth
,
Robert D. Holt
,
Dmitrii O. Logofet
,
Mark Novak
,
Rudolf P. Rohr
,
Axel G. Rossberg
,
Matthew Spencer
,
J. Khai Tran
,
Lev R. Ginzburg
Selection against instability: stable subgraphs are most frequent in empirical food webs
Subgraphs that are observed more frequently than expected at random are also those that are more likely to be stable.
Jonathan J. Borrelli
Why there are so few trophic levels: Selection against instability explains the pattern
Food chains are typically short, we suggest that this is because food webs with longer chains are less likely to be stable.
Jonathan J. Borrelli
,
Lev R. Ginzburg
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