Gilby, B.L., Weinstein, M.P., Baker, R., Cebrian, J., Alford, S.B., Chelsky, A. et al. (2020) Human Actions Alter Tidal Marsh Seascapes and the Provision of Ecosystem Services. Estuaries and Coasts.
Bernhard, A.E., Chelsky, A., Giblin, A.E. & Roberts, B.J. (2019). Influence of local and regional drivers on spatial and temporal variation of ammonia-oxidizing communities in Gulf of Mexico salt marshes. Environmental Microbiology Reports 11: 825-834. PDF.
Warnken, J., Ohlsson, R., Welsh, D.T., Teasdale, P.R., Chelsky, A. & Bennett, W.W. (2017). Antimony and arsenic exhibit contrasting spatial distributions in the sediment and vegetation of a contaminated wetland. Chemosphere 180: 388-395. PDF.
Chelsky, A., Pitt, K.A., Ferguson, A.J.P., Bennett, W.W., Teasdale, P.R. & Welsh, D.T. (2016). Decomposition of jellyfish carrion in situ: Short-term impacts on infauna, benthic nutrient fluxes and sediment redox conditions. Science of the Total Environment 566-567: 929-937. PDF.
Sweetman, A.K., Chelsky, A., Pitt, K.A., Andrade, H., van Oevelen, D. & Renaud, P.E. (2016). Jellyfish decomposition at the seafloor can rapidly alter biogeochemical cycling and carbon flow through benthic food-webs. Limnology and Oceanography 61:1449-1461. PDF.
Chelsky, A., Pitt, K.A., & Welsh, D.T. (2015). Biogeochemical implications of decomposing jellyfish blooms in a changing climate. Estuarine, Coastal and Shelf Science 154: 77-83. PDF.
Pitt, K.A., Chelsky Budarf A., Browne J.G. & Condon, R.H. (2014). Bloom and bust: Why do blooms of jellyfish collapse? In K.A. Pitt & C.H. Lucas (eds.), Jellyfish Blooms: Springer. PDF.
Chelsky Budarf, A., Burfeind, D.D., Loh, W.K.W. & Tibbetts, I.R. (2011). Identification of seagrasses in the gut of a marine herbivorous fish using DNA barcoding and visual inspection techniques. Journal of Fish Biology 79:112-121. PDF.
Bernhard, A.E., Chelsky, A., Giblin, A.E. & Roberts, B.J. (2019). Influence of local and regional drivers on spatial and temporal variation of ammonia-oxidizing communities in Gulf of Mexico salt marshes. Environmental Microbiology Reports 11: 825-834. PDF.
Warnken, J., Ohlsson, R., Welsh, D.T., Teasdale, P.R., Chelsky, A. & Bennett, W.W. (2017). Antimony and arsenic exhibit contrasting spatial distributions in the sediment and vegetation of a contaminated wetland. Chemosphere 180: 388-395. PDF.
Chelsky, A., Pitt, K.A., Ferguson, A.J.P., Bennett, W.W., Teasdale, P.R. & Welsh, D.T. (2016). Decomposition of jellyfish carrion in situ: Short-term impacts on infauna, benthic nutrient fluxes and sediment redox conditions. Science of the Total Environment 566-567: 929-937. PDF.
Sweetman, A.K., Chelsky, A., Pitt, K.A., Andrade, H., van Oevelen, D. & Renaud, P.E. (2016). Jellyfish decomposition at the seafloor can rapidly alter biogeochemical cycling and carbon flow through benthic food-webs. Limnology and Oceanography 61:1449-1461. PDF.
Chelsky, A., Pitt, K.A., & Welsh, D.T. (2015). Biogeochemical implications of decomposing jellyfish blooms in a changing climate. Estuarine, Coastal and Shelf Science 154: 77-83. PDF.
Pitt, K.A., Chelsky Budarf A., Browne J.G. & Condon, R.H. (2014). Bloom and bust: Why do blooms of jellyfish collapse? In K.A. Pitt & C.H. Lucas (eds.), Jellyfish Blooms: Springer. PDF.
Chelsky Budarf, A., Burfeind, D.D., Loh, W.K.W. & Tibbetts, I.R. (2011). Identification of seagrasses in the gut of a marine herbivorous fish using DNA barcoding and visual inspection techniques. Journal of Fish Biology 79:112-121. PDF.