Wetland and Coastal Ecology:
Global change and ecosystem resilience
Peer Reviewed Publications
In Review
Currie W.S., Bourgeau-Chavez L., Elgersma K.J., Higman P., Martina, J.P., Sharp S.J., Vanderhaar M. In review. Wetland process modeling and remote sensing in the development of an adaptive management framework: Restoration of Phragmites-invaded coastal wetlands in the Great Lakes region.
Accepted
2021
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Hensel M.J.S., Silliman B.R., van de Koppel J., Hensel E., Sharp S.J., Crotty S.M., Byrnes J.E.K. A large invasive consumer reduces coastal ecosystem resilience by disabling positive species interactions. Nature communications 12 (1), 1-10.
nd edit me. It's easy.
Yuan Y., Sharp S.J., Martina J.P., Elgersma K.J., Currie W.S. Sustained‐Flux Global Warming Potential Driven by Nitrogen Inflow and Hydroperiod in a Model of Great Lakes Coastal Wetlands. Journal of Geophysical Research: Biogeosciences 126 (8), e2021JG006242.
Sheng Y.P., Rivera-Nieves A.A., Zou R., Paramygin V.A., Angelini C., Sharp S.J. Invasive Phragmites provides superior wave and surge damage protection relative to native plants during storms. Environmental Research Letters 16 (5), 054008.
Sharp S.J., Angelini C. Predators enhance resilience of a saltmarsh foundation species to drought. Journal of Ecology 109 (2), 975-986.
Sharp S.J., Elgersma K.J., Martina J.P., Currie W.C. In press. Hydrologic flushing rates driven nitrogen cycling and plant invasion in freshwater coastal wetland model. Ecological Applications.
In Preparation
Sharp, S.J., Kendall, A, Yuan, Y., Martin, S., Wan, L., Elgersma, K.J., Martina, J.P., Currie, W.S. Landscape drivers of nitrogen removal in emergent wetlands of the Great Lakes Basin.
Sharp, S.J., Elgersma, K.J., Martina, J.P., Currie, W.C. Do pulse versus press nutrient loading regimes modulate the function of coastal wetlands along a climate change gradient?
Davidson K.E., Sharp S.J. †, Pennings S.C., Angelini C.A., Griffin G.M. Large grazers disrupt plant community and reduce soil carbon in US salt marshes. Target Journal: Journal of Ecology
Sharp S.J., and Tully K.L. Depth profiles of carbon dynamics in salt marsh and agricultural fields reveals hidden methane and DOC sources. Target Journal: Biogeochemistry
Sharp S.J., Yuan Y., Kendall A., Elgersma K.J., Martin S., Wan L., Martina J.P., Currie W. Mapping watershed nitrogen removal in emergent wetlands of the Great Lakes. Target Journal: Environmental Research Letters
Goldberg D., Kendal A., Sharp S.J., Elgersma K.J., Martina J.P., Wan L. Combining hydrologic transport models and wetland simulations improves prediction of Phragmites australis dispersal and spread in coastal wetlands. Target Journal: Ecology
Sharp S.J., Maietta C., Stewart G., Taylor A., Williams M., Palmer M. Understanding how plant functional types modulate CH4 production and transport improves emissions estimates from freshwater wetlands. Target Journal: Proceeding of the National Academy of Sciences
*Denotes student mentee
†Corresponding author
2019
04.
Sharp S.J., Angelini C. 2019. Landscape composition and disturbance type drive salt marsh resilience to feral hog invasion. Biological Invasions 21(9):2857-2869.
2018
03.
Crotty S.M., Sharp S.J., Bersoza A.C., Prince K., Cronk K., Johnson E., Angelini C. 2018. Foundation species patch configurations mediates biodiversity, stability and multifunctionality. Ecology Letters 21(11):1681-1692.
2017
02.
Persico E.P.*, Sharp S.J., Angelini C. 2017. Feral hog disturbance alters carbon dynamics in southeastern US salt marshes. Marine Ecology Progress Series 580:57-68.
2016
01.
Sharp, S.J., Angelini, C. 2016. Whether disturbances alter salt marsh soil structure dramatically affects Spartina alterniflora recolonization rate. Ecosphere e012540.