@misc{layman_allgeier_2020, title={An ecosystem ecology perspective on artificial reef production}, volume={57}, ISSN={["1365-2664"]}, DOI={10.1111/1365-2664.13748}, abstractNote={Abstract}, number={11}, journal={JOURNAL OF APPLIED ECOLOGY}, author={Layman, Craig A. and Allgeier, Jacob E.}, year={2020}, month={Nov}, pages={2139–2148} }
 @article{hensel_allgeier_layman_2019, title={Effects of predator presence and habitat complexity on reef fish communities in The Bahamas}, volume={166}, ISSN={["1432-1793"]}, DOI={10.1007/s00227-019-3568-3}, number={10}, journal={MARINE BIOLOGY}, author={Hensel, Enie and Allgeier, Jacob E. and Layman, Craig A.}, year={2019}, month={Oct} }
 @article{lyon_eggleston_bohnenstiehl_layman_ricci_allgeier_2019, title={Fish community structure, habitat complexity, and soundscape characteristics of patch reefs in a tropical, back-reef system}, volume={609}, ISSN={["1616-1599"]}, url={http://dx.doi.org/10.3354/meps12829}, DOI={10.3354/meps12829}, abstractNote={Fig. S1. Box plots for nightly low frequency (0.1 – 1.5 kHz) SPL (a) and high frequency (4 – 20 kHz) SPL (b) for reef 5 for each lunar quarter. Red lines indicate median SPLs, ticks indicate maximum and minimum values, horizontal blue lines indicate 75% and 25% quantiles, and angled blue lines indicate the 95% upper and lower confidence levels in the median. Kruskal-Wallis tests were used to test for differences in SPL between lunar quarters. Relationships between water temperature (in C) and low frequency (0.1 – 1.5 kHz) SPL (c) and high frequency (4 – 20 kHz) SPL (d) were evaluated using linear regression models. 2 = 2.52 p = 0.47}, journal={MARINE ECOLOGY PROGRESS SERIES}, publisher={Inter-Research Science Center}, author={Lyon, R. Patrick and Eggleston, David B. and Bohnenstiehl, DelWayne R. and Layman, Craig A. and Ricci, Shannon W. and Allgeier, Jacob E.}, year={2019}, month={Jan}, pages={33–48} }
 @article{allgeier_layman_mumby_rosemond_2015, title={Biogeochemical implications of biodiversity and community structure across multiple coastal ecosystems}, volume={85}, ISSN={["1557-7015"]}, DOI={10.1890/14-0331.1}, abstractNote={Small‐scale experiments and theory suggest that ecological functions provided by communities become more stable with increased species richness. Whether these patterns manifest at regional spatial scales and within species‐rich communities (e.g., coral reefs) is largely unknown. We quantified five biogeochemical processes, and an aggregate measure of multifunctionality, in species‐rich coastal fish communities to test three questions: (1) Do previously predicted biodiversity–ecosystem‐function relationships hold across large spatial scales and in highly diverse communities? (2) Can additional covariates of community structure improve these relationships? (3) What is the role of community biomass and functional group diversity in maintaining biogeochemical processes under various scenarios of species loss across ecosystem types? These questions were tested across a large regional gradient of coral reef, mangrove and seagrass ecosystems. Statistical models demonstrated that species richness and the mean maximum body size per species strongly predicted biogeochemical processes in all ecosystem types, but functional group diversity was only a weak predictor. Simulating three scenarios of species loss demonstrated that conserving community biomass alone increased the ability for communities to maintain ecosystem processes. Multifunctionality of biogeochemical processes was maintained least in simulations that conserved biomass and community structure, underscoring the relative lack of importance of community structure in maintaining multiple simultaneous ecosystem functions in this system. Findings suggest that conserving community biomass alone may be sufficient to sustain certain biogeochemical processes, but when considering conservation of multiple simultaneous biogeochemical processes, management efforts should focus first on species richness.}, number={1}, journal={ECOLOGICAL MONOGRAPHS}, author={Allgeier, Jacob E. and Layman, Craig A. and Mumby, Peter J. and Rosemond, Amy D.}, year={2015}, month={Feb}, pages={117–132} }
 @article{archer_allgeier_semmens_heppell_pattengill-semmens_rosemond_bush_mccoy_johnson_layman_2015, title={Hot moments in spawning aggregations: implications for ecosystem-scale nutrient cycling}, volume={34}, ISSN={["1432-0975"]}, DOI={10.1007/s00338-014-1208-4}, number={1}, journal={CORAL REEFS}, author={Archer, Stephanie K. and Allgeier, Jacob E. and Semmens, Brice X. and Heppell, Scott A. and Pattengill-Semmens, Christy V. and Rosemond, Amy D. and Bush, Phillippe G. and McCoy, Croy M. and Johnson, Bradley C. and Layman, Craig A.}, year={2015}, month={Mar}, pages={19–23} }
 @article{allgeier_layman_mumby_rosemond_2014, title={Consistent nutrient storage and supply mediated by diverse fish communities in coral reef ecosystems}, volume={20}, ISSN={["1365-2486"]}, DOI={10.1111/gcb.12566}, abstractNote={Abstract}, number={8}, journal={GLOBAL CHANGE BIOLOGY}, author={Allgeier, Jacob E. and Layman, Craig A. and Mumby, Peter J. and Rosemond, Amy D.}, year={2014}, month={Aug}, pages={2459–2472} }