In Review
DeLong, J.P., K.E. Coblentz, S.F. Uiterwaal, C. Akwani, M. Salsbery. Temperature and predators as interactive drivers of community properties.
In Prep.
Coblentz, K.E., L.A. Treidel, F.P. Biagioli, C. Fragel, A.E. Johnson, D.D. Thilakarathne, L. Yang, J.P. DeLong. A framework for understanding climate change impacts through intra- and interspecific asymmetries in climate change responses.
Coblentz, K.E. Nonlinear functional responses and ecological pleiotropy alter the strength of disruptive selection.
Drafts of In Prep. and In Review manuscripts are available on request
Coblentz, K.E. Nonlinear functional responses and ecological pleiotropy alter the strength of disruptive selection.
Drafts of In Prep. and In Review manuscripts are available on request
Published
Coblentz, K.E. and J.P. Delong. 2023. Ecological boundaries constrain viable eco-evolutionary pathways. Oikos.
Coblentz, K.E., M. Novak, J.P. DeLong. 2023. Predator feeding rates may often be unsaturated under typical prey densities. Ecology Letters. 26: 302-312
Coblentz, K.E., A. Squires, S. Uiterwaal, and J.P. DeLong. 2022. Quantifying predator functional responses under field conditions reveals interactive effects of temperature and interference with sex and stage. Journal of Animal Ecology.
DeLong, J.P. and K.E. Coblentz. 2022. Prey diversity constrains the adaptive potential of predator foraging traits. Oikos. 2022.
T.N. Grainger [and 14 others including K.E. Coblentz]. 2022. An empiricist's guide to using ecological theory. The American Naturalist. 199:1-20.
Coblentz, K.E., S. Merhoff, and M. Novak. 2021. Quantifying the effects of intraspecific variation on predator feeding rates through nonlinear averaging. Functional Ecology. 35:1560-1571.
Coblentz, K.E., and J.P. DeLong. 2021. Estimating predator functional responses using the times between prey captures. Ecology. 102:e03307.
Coblentz, K.E. and J.P. DeLong. 2020. Predator-dependent functional responses alter the coexistence and indirect effects among prey that share a predator. Oikos. 129:1404-1414.
Coblentz, K.E. 2019. Relative prey abundances and predator preference predict individual diet variation in prey switching experiments. Ecology. 101:e02911.
Barner, A.K., K.E. Coblentz, S. Hacker, B.A. Menge. 2018. Fundamental contradictions among observational and experimental estimates of non-trophic species interactions. Ecology. 99:557-556.
Novak, M., C. Wolf, K.E. Coblentz, I. Shepard. 2017. Quantifying predator dependence in the functional response of generalist predators. Ecology Letters. 20:761-769.
Coblentz, K.E., A.E. Rosenblatt, M. Novak. 2017. The application of Bayesian hierarchical models to quantify individual diet specialization. Ecology. 98:1535-1547.
Hughes, B.B. [and 35 others including K.E. Coblentz]. 2017. Long-term studies contribute disproportionately to ecology and policy. Bioscience. 67:271-281. https://doi.org/10.1093/biosci/biw185
Coblentz, K.E., J.R. Henkel, B.J. Sigel, C.M. Taylor. 2015. Influence of sediment characteristics on the composition of soft-sediment intertidal communities in the northern Gulf of Mexico. PeerJ. 3:e1014. https://doi.org/10.7717/peerj.1014
Coblentz, K.E., J.R. Henkel, B.J. Sigel, C.M. Taylor. 2015. Technical Note: The use of laser diffraction particle size analyzers for inference on infauna-sediment relationships. Estuaries and Coasts. 38:699-702.
Coblentz, K.E., S.A. Van Bael. 2013. Field colonies of leaf-cutting ants select plant materials containing low abundances of endophytic fungi. Ecosphere. 4:art66.
Coblentz, K.E., M. Novak, J.P. DeLong. 2023. Predator feeding rates may often be unsaturated under typical prey densities. Ecology Letters. 26: 302-312
Coblentz, K.E., A. Squires, S. Uiterwaal, and J.P. DeLong. 2022. Quantifying predator functional responses under field conditions reveals interactive effects of temperature and interference with sex and stage. Journal of Animal Ecology.
DeLong, J.P. and K.E. Coblentz. 2022. Prey diversity constrains the adaptive potential of predator foraging traits. Oikos. 2022.
T.N. Grainger [and 14 others including K.E. Coblentz]. 2022. An empiricist's guide to using ecological theory. The American Naturalist. 199:1-20.
Coblentz, K.E., S. Merhoff, and M. Novak. 2021. Quantifying the effects of intraspecific variation on predator feeding rates through nonlinear averaging. Functional Ecology. 35:1560-1571.
Coblentz, K.E., and J.P. DeLong. 2021. Estimating predator functional responses using the times between prey captures. Ecology. 102:e03307.
Coblentz, K.E. and J.P. DeLong. 2020. Predator-dependent functional responses alter the coexistence and indirect effects among prey that share a predator. Oikos. 129:1404-1414.
Coblentz, K.E. 2019. Relative prey abundances and predator preference predict individual diet variation in prey switching experiments. Ecology. 101:e02911.
Barner, A.K., K.E. Coblentz, S. Hacker, B.A. Menge. 2018. Fundamental contradictions among observational and experimental estimates of non-trophic species interactions. Ecology. 99:557-556.
Novak, M., C. Wolf, K.E. Coblentz, I. Shepard. 2017. Quantifying predator dependence in the functional response of generalist predators. Ecology Letters. 20:761-769.
Coblentz, K.E., A.E. Rosenblatt, M. Novak. 2017. The application of Bayesian hierarchical models to quantify individual diet specialization. Ecology. 98:1535-1547.
Hughes, B.B. [and 35 others including K.E. Coblentz]. 2017. Long-term studies contribute disproportionately to ecology and policy. Bioscience. 67:271-281. https://doi.org/10.1093/biosci/biw185
Coblentz, K.E., J.R. Henkel, B.J. Sigel, C.M. Taylor. 2015. Influence of sediment characteristics on the composition of soft-sediment intertidal communities in the northern Gulf of Mexico. PeerJ. 3:e1014. https://doi.org/10.7717/peerj.1014
Coblentz, K.E., J.R. Henkel, B.J. Sigel, C.M. Taylor. 2015. Technical Note: The use of laser diffraction particle size analyzers for inference on infauna-sediment relationships. Estuaries and Coasts. 38:699-702.
Coblentz, K.E., S.A. Van Bael. 2013. Field colonies of leaf-cutting ants select plant materials containing low abundances of endophytic fungi. Ecosphere. 4:art66.
