2023
25) Pringle, RM, JO Abraham, TM Anderson, TC Coverdale, AB Davies, CL Dutton, A Gaylard, JR Goheen, RM Holdo, MC Huthchinson, DM Kimuyu, RA Long, AL Subalusky, and MP Veldhuis. Impacts of large herbivores on terrestrial ecosystems. Current Biology. 33: R584-R610.
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24) Coverdale, TC and AB Davies. Unraveling the relationship between plant diversity and vegetation structural complexity: a review and theoretical framework. (Accepted) Journal of Ecology.
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2022
23) Coverdale, TC and AA Agrawal. (2022) Experimental insect suppression causes loss of induced, but not constitutive, resistance in Solanum carolinense. Ecology. e3786.
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22) Alston, JM, CG Reed, L Khasoha, BRP Brown, G Busienei, NJ Carlson*, TC Coverdale, MO Dudenhoffer, M Dyck, J Ekeno, AA Hassan, R Hohbein, RP Jakopak, B Kimiti, S Kurukura, P Lokeny, AM Louthan, S Musila, PM Musili, T Tindall, S Weiner, TR Kartzinel, TM Palmer, RM Pringle, and JR Goheen. Ecological consequences of large herbivore exclusion in an African savanna: 12 years of data from the UHURU experiment. Ecology. 103: e3649.
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2021
21) Coverdale, TC, RD O'Connell*, MC Hutchinson, A Savagian, TR Kartzinel, TM Palmer, JR Goheen, DJ Augustine, M Sankaran, CE Tarnita, and RM Pringle. Megaherbivores prevent harmful liana infestation in an African savanna. 2021. PNAS. 118: e2101676118.
* Authors contributed equally (undergraduate mentee) |
20) Coverdale, TC and AA Agrawal. Evolution of shade tolerance is associated with attenuation of plasticity and shade avoidance in North American milkweeds. 2021. American Journal of Botany. 108: 1705-1715.
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2020
19) Guyton, JA, J Pansu, MC Hutchinson, TR Kartzinel, AB Potter, TC Coverdale, JH Daskin, AG da Conceição, MJS Peel, ME Stalmans, and RM Pringle. 2020. Trophic rewilding revives biotic resistance to shrub invasion. 2020. Nature Ecology and Evolution 4: 712-724.
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2019
18) Coverdale, TC, IJ McGeary, RD O’Connell, TM Palmer, JR Goheen, M Sankaran, DJ Augustine, AT Ford, RM Pringle, and CE Tarnita. 2019. Strong but opposing effects of associational resistance and susceptibility on defense phenotype in an African savanna plant, 2019. Oikos 128: 1772-1782.
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17) Pringle, RM, TR Kartzinel, TM Palmer, TJ Thurman, K Fox-Dobbs, CCY Xu, MC Hutchinson, TC Coverdale, JH Daskin, D Evangelista, K Gotanda, N Man in ‘t Veld, H Wegener, JJ Kolbe, TW Schoener, DA Spiller, JB Losos, and RDH Barrett. 2019. Predator-induced collapse of niche structure and species coexistence, 2019. Nature 570:58-63.
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2018
16) Coverdale, TC, JR Goheen, TM Palmer, and RM Pringle. 2018. Good neighbors make good defenses: associational refuges reduce defense investment in African savanna plants. Ecology 99: 1724-1736.
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2017
15) Tarnita, CE, JA Bonachela, E Sheffer, JA Guyton, TC Coverdale, RA Long and RM Pringle. 2017. A theoretical foundation for multi-scale regular vegetation patterns. Nature 541: 398-401.
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2016
14) Coverdale, TC, TR Kartzinel, K Grabowski, RK Shriver, AA Hassan, JR Goheen, TM Palmer, and RM Pringle. 2016. Elephants in the understory: opposing direct and indirect effects of consumption and ecosystem engineering. Ecology 97: 3219-3230.
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13) Kartzinel, TR, PA Chen, TC Coverdale, DL Erickson, WJ Kress, ML Kuzmina, DI Rubenstein, W Wang and RM Pringle. 2015. DNA metabarcoding illuminates dietary niche partitioning by large African herbivores. PNAS 112: 8019-8024.
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2015
12) Bonachela, JA, RM Pringle, E Sheffer, TC Coverdale, JA Guyton, KK Caylor, SA Levin and CE Tarnita. 2015. Termite mounds can increase the robustness of dryland ecosystems to climatic change. Science 347: 651-655.
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2014
11) Coverdale, TC, EW Young, CP Brisson and MD Bertness. 2014. Indirect human impacts reverse centuries of carbon sequestration and marsh accretion. PLoS One 9(3) e93296.
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10) Bertness, MD, CP Brisson, TC Coverdale, MC Bevil, SM Crotty, and ER Suglia. 2014. Experimental predator removal rapidly generates salt marsh die-off. Ecology Letters 17: 830-835.
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9) He, Q, MD Bertness, J Bruno, B Li, G Chen, TC Coverdale, AH Altieri, J Bai, T Sun, S Pennings, J Liu, P Ehrlich, and B Cui. 2014. Economic development and coastal ecosystem change in China. Scientific Reports 4: 1-9.
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8) Brisson, CP, TC Coverdale and MD Bertness. 2014. Salt marsh die-off and recovery reveal disparity between the recovery of ecosystem structure and service provision. Biological Conservation 197: 1-5.
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2013
7) Coverdale, TC, MD Bertness, and AH Altieri. 2013. Regional ontogeny of New England salt marsh die-off. Conservation Biology 27(5): 1041-1048.
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6) Coverdale, TC, EE Axelman, CP Brisson, EW Young, AH Altieri and MD Bertness. 2013. New England salt marsh recovery: opportunistic colonization of an invasive species and its non-consumptive effects. PLoS One 8(8): e73823.
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5) Altieri, AH, MD Bertness, TC Coverdale, EE Axelman, NC Herrmann and PL Szathmary. 2013. Facilitation drives the resilience of salt marshes and rapid reversal of die-off. Ecology 94(7): 1647-1657.
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4) Bertness, MD and TC Coverdale. 2013. An invasive species facilitates the recovery of salt marsh ecosystems on Cape Cod. Ecology 94(9) 1937-1943.
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3) Coverdale, TC, NC Herrmann, AH Altieri, and MD Bertness. 2013. Latent impacts: the role of historical human impacts in coastal habitat loss. Frontiers in Ecology and the Environment 11(2): 69-74.
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2012
2) Coverdale, TC, AH Altieri, and MD Bertness. 2012. Belowground herbivory increases vulnerability of New England salt marshes to die-off. Ecology 93(9): 2085-2094.
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1) Altieri, AH, MD Bertness, TC Coverdale, NC Herrmann, and C Holdredge. 2012. A trophic cascade triggers collapse of a salt-marsh ecosystem with intensive recreational fishing. Ecology 93(6): 1402-1410.
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Invited Commentaries
i) Coverdale, TC. Defence emergence during early ontogeny reveals important differences between spines, thorns and prickles. A commentary on Developmental constraints and resource environment shape early emergence and investment in spines in saplings (Armani et al. 2019), 2019. Annals of Botany 124: iii-iv.
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In Prep | In Review | In Revision
26) Coverdale, TC, PB Boucher, J Singh, TM Palmer, JR Goheen, RM Pringle, and AB Davies. Large mammalian herbivores reduce vegetation structural complexity in African savannas by altering plant community composition and individual plant morphology. (Submitted)
* Data for all first-authored publications available upon request; PDFs provided for personal use only