Contrasting trends in water quality between adjacent ocean‐ and river‐dominated estuaries: Evidence for marsh porewaters as a source of nutrient enrichment?

[1]  Erik M. Smith,et al.  Increasing tidal inundation corresponds to rising porewater nutrient concentrations in a southeastern U.S. salt marsh , 2022, PloS one.

[2]  Jonathan A. Walter,et al.  Co-occurrence of Aquatic Heatwaves with Atmospheric Heatwaves, Low Dissolved Oxygen, and Low pH Events in Estuarine Ecosystems , 2021, Estuaries and Coasts.

[3]  M. Beck,et al.  Multi-scale trend analysis of water quality using error propagation of generalized additive models. , 2021, Science of the Total Environment.

[4]  D. Brady,et al.  Modeling Impacts of Nutrient Loading, Warming, and Boundary Exchanges on Hypoxia and Metabolism in a Shallow Estuarine Ecosystem , 2021, JAWRA Journal of the American Water Resources Association.

[5]  J. Tamborski,et al.  Salt Marsh Hydrogeology: A Review , 2021, Water.

[6]  J. Pinckney,et al.  Nutrient breakpoints for estuarine phytoplankton communities , 2020, Limnology and Oceanography.

[7]  A. Shanks,et al.  Revisiting cross-shelf transport of Dungeness crab (Metacarcinus magister) megalopae by the internal tide using 16 years of daily abundance data , 2020, Journal of Experimental Marine Biology and Ecology.

[8]  C. Gobler,et al.  Harmful algal blooms: A climate change co-stressor in marine and freshwater ecosystems. , 2020, Harmful algae.

[9]  L. Freeman,et al.  Impacts of Urbanization and Development on Estuarine Ecosystems and Water Quality , 2019, Estuaries and Coasts.

[10]  M. A. Poirrier,et al.  Bluebills and bayou bivalves: Hurricane‐driven trophic cascades affect wintering abundance of Lesser Scaup in Louisiana , 2019, Ecosphere.

[11]  Rebecca R. Murphy,et al.  A Generalized Additive Model approach to evaluating water quality: Chesapeake Bay case study , 2019, Environ. Model. Softw..

[12]  M. Kennish The National Estuarine Research Reserve System: A Review of Research and Monitoring Initiatives , 2019, Open Journal of Ecology.

[13]  G. Simpson Modelling Palaeoecological Time Series Using Generalised Additive Models , 2018, Front. Ecol. Evol..

[14]  Elise Van Meerssche,et al.  Nutrient Loading Impacts on Estuarine Phytoplankton Size and Community Composition: Community-Based Indicators of Eutrophication , 2018, Estuaries and Coasts.

[15]  C. Benitez‐Nelson,et al.  Temporal Variability in Ecological Stoichiometry and Material Exchange in a Tidally Dominated Estuary (North Inlet, South Carolina) and the Impact on Community Nutrient Status , 2018, Estuaries and Coasts.

[16]  W. Kemp,et al.  Nutrient- and Climate-Induced Shifts in the Phenology of Linked Biogeochemical Cycles in a Temperate Estuary , 2018, Front. Mar. Sci..

[17]  M. Beck,et al.  Numerical and Qualitative Contrasts of Two Statistical Models for Water Quality Change in Tidal Waters , 2017, Journal of the American Water Resources Association.

[18]  D. Greenfield,et al.  The influence of nitrogen and phosphorus on phytoplankton growth and assemblage composition in four coastal, southeastern USA systems , 2016 .

[19]  H. Paerl,et al.  Long-Term Trends of Nutrients and Phytoplankton in Chesapeake Bay , 2016, Estuaries and Coasts.

[20]  Richard C. Dugdale,et al.  Pluses and minuses of ammonium and nitrate uptake and assimilation by phytoplankton and implications for productivity and community composition, with emphasis on nitrogen‐enriched conditions , 2016 .

[21]  D. Greenfield,et al.  A spatial assessment of baseline nutrient and water quality values in the Ashepoo-Combahee-Edisto (ACE) Basin, South Carolina, USA. , 2015, Marine pollution bulletin.

[22]  Ming Li,et al.  Sea-level rise and other influences on decadal-scale salinity variability in a coastal plain estuary , 2015 .

[23]  N. Pontee Defining coastal squeeze: A discussion , 2013 .

[24]  James T. Morris,et al.  Salt Marsh Primary Production and Its Responses to Relative Sea Level and Nutrients in Estuaries at Plum Island, Massachusetts, and North Inlet, South Carolina, USA , 2013 .

[25]  G. Likens,et al.  Value of long-term ecological studies , 2012 .

[26]  J. Morris,et al.  The influence of tidal forcing on groundwater flow and nutrient exchange in a salt marsh-dominated estuary , 2012, Biogeochemistry.

[27]  Elizabeth B. Harper,et al.  Global sensitivity analysis for complex ecological models: a case study of riparian cottonwood population dynamics. , 2011, Ecological applications : a publication of the Ecological Society of America.

[28]  W. P. Ball,et al.  Long-Term Trends in Chesapeake Bay Seasonal Hypoxia, Stratification, and Nutrient Loading , 2011 .

[29]  U. Sommer,et al.  Ammonium, nitrate and phytoplankton interactions in a freshwater tidal estuarine zone: potential effects of cultural eutrophication , 2011, Aquatic Sciences.

[30]  R. Ptáčník,et al.  Performance of the Redfield Ratio and a Family of Nutrient Limitation Indicators as Thresholds for Phytoplankton N vs. P Limitation , 2010, Ecosystems.

[31]  Monika Winder,et al.  The annual cycles of phytoplankton biomass , 2010, Philosophical Transactions of the Royal Society B: Biological Sciences.

[32]  H. Dam,et al.  Effects of omnivory and predator‐prey elemental stoichiometry on planktonic trophic interactions , 2010 .

[33]  Elaine S. Fileman,et al.  Grazing by the copepods Calanus helgolandicus and Acartia clausi on the protozooplankton community at station L4 in the Western English Channel , 2010 .

[34]  James E. Cloern,et al.  Patterns and Scales of Phytoplankton Variability in Estuarine–Coastal Ecosystems , 2010 .

[35]  R. E. Turner,et al.  Global change and eutrophication of coastal waters , 2009 .

[36]  J. Vik,et al.  Wavelet analysis of ecological time series , 2008, Oecologia.

[37]  Richard C. Dugdale,et al.  The role of ammonium and nitrate in spring bloom development in San Francisco Bay , 2007 .

[38]  H. Paerl,et al.  The role of nutrient loading and eutrophication in estuarine ecology. , 2001, Environmental health perspectives.

[39]  G W Randall,et al.  Nitrate nitrogen in surface waters as influenced by climatic conditions and agricultural practices. , 2001, Journal of environmental quality.

[40]  J. Cloern Our evolving conceptual model of the coastal eutrophication problem , 2001 .

[41]  Lawrence D. Teeter,et al.  Relationships Between Landscape Characteristics and Nonpoint Source Pollution Inputs to Coastal Estuaries , 1999, Environmental management.

[42]  Alan J. Lewitus,et al.  Seasonal variation in the regulation of phytoplankton by nitrogen and grazing in a salt‐smarsh estuary , 1998 .

[43]  M. Lucotte,et al.  Processes controlling phosphate adsorption by iron hydroxides in estuaries , 1988 .

[44]  J. F. Arthur,et al.  River discharge controls phytoplankton dynamics in the northern San Francisco Bay estuary , 1983 .

[45]  H. Ho,et al.  Population stress: A spatiotemporal analysis of population change and land development at the county level in the contiguous United States, 2001-2011. , 2018, Land use policy.

[46]  J. Carstensen,et al.  Recovery of Danish Coastal Ecosystems After Reductions in Nutrient Loading: A Holistic Ecosystem Approach , 2015, Estuaries and Coasts.

[47]  H. Paerl,et al.  Hydrologic Variability and Its Control of Phytoplankton Community Structure and Function in Two Shallow, Coastal, Lagoonal Ecosystems: The Neuse and New River Estuaries, North Carolina, USA , 2013, Estuaries and Coasts.

[48]  H. Paerl,et al.  Phytoplankton uptake of ammonium, nitrate and urea in the Neuse River Estuary, NC, USA , 2004, Hydrobiologia.