PIE LTER Publications

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2021
Mori AS, Dee LE, Gonzalez A, Ohashi H, Cowles J, Wright AJ, Loreau M, Hautier Y, Newbold T, Reich PB et al..  2021.  Biodiversity–productivity relationships are key to nature-based climate solutions. Nature Climate Change. 11:543–550.
Iwaniec DM, Gooseff M, Suding KN, Johnson DSamuel, Reed DC, Peters DPC, Adams B, Barrett JE, Bestelmeyer BT, Castorani MCN et al..  2021.  Connectivity: insights from the U.S. Long Term Ecological Research Network. Ecosphere. 12
Iwaniec DM, Gooseff M, Suding KN, Johnson DSamuel, Reed DC, Peters DPC, Adams B, Barrett JE, Bestelmeyer BT, Castorani MCN et al..  2021.  Connectivity: insights from the U.S. Long Term Ecological Research Network. Ecosphere. 12
Avolio ML, Komatsu KJ, Collins SL, Grman E, Koerner SE, Tredennick AT, Wilcox KR, Baer S, Boughton EH, Britton AJ et al..  2021.  Determinants of community compositional change are equally affected by global change. Ecology Letters. 24:1892–1904.
Avolio ML, Komatsu KJ, Collins SL, Grman E, Koerner SE, Tredennick AT, Wilcox KR, Baer S, Boughton EH, Britton AJ et al..  2021.  Determinants of community compositional change are equally affected by global change. Ecology Letters. 24:1892–1904.
Ziegler SL, Baker R, Crosby SC, Colombano DD, Barbeau MA, Cebrian J, Connolly RM, Deegan LA, Gilby BL, Mallick D et al..  2021.  Geographic Variation in Salt Marsh Structure and Function for Nekton: a Guide to Finding Commonality Across Multiple Scales. Estuaries and Coasts. 44:1497–1507.
Giblin AE, Fulweiler RW, Hopkinson CS.  2021.  The Role of Marshes in Coastal Nutrient Dynamics and Loss. Salt Marshes: Function, Dynamics, and Stresses. :113–154.
Luk SY, Todd‐Brown K, Eagle M, McNichol AP, Sanderman J, Gosselin K, Spivak AC.  2021.  Soil Organic Carbon Development and Turnover in Natural and Disturbed Salt Marsh Environments. Geophysical Research Letters. 48
Waltham NJ, Alcott C, Barbeau MA, Cebrian J, Connolly RM, Deegan LA, Dodds K, Gaines LAGoodrid, Gilby BL, Henderson CJ et al..  2021.  Tidal Marsh Restoration Optimism in a Changing Climate and Urbanizing Seascape. Estuaries and Coasts. 44:1681–1690.
Waltham NJ, Alcott C, Barbeau MA, Cebrian J, Connolly RM, Deegan LA, Dodds K, Gaines LAGoodrid, Gilby BL, Henderson CJ et al..  2021.  Tidal Marsh Restoration Optimism in a Changing Climate and Urbanizing Seascape. Estuaries and Coasts. 44:1681–1690.
2020
Ganju N.K., Defne Z., Fagherazzi S..  2020.  Are elevation and open‐water conversion of salt marshes connected? Geophysical Research Letters. 47
Zhang X., Fichot C.G., Baracco C., Guo R., Neugebauer S., Bengtsson Z., Ganju N.K., Fagherazzi S..  2020.  Determining the drivers of suspended sediment dynamics in tidal marsh-influenced estuaries using high-resolution ocean color remote sensing. Remote Sensing of Environment. 240
Zhang X., Fichot C.G., Baracco C., Guo R., Neugebauer S., Bengtsson Z., Ganju N.K., Fagherazzi S..  2020.  Determining the drivers of suspended sediment dynamics in tidal marsh-influenced estuaries using high-resolution ocean color remote sensing. Remote Sensing of Environment. 240
Johnson D.S., Martinez-Soto K.S., Pant M., Wittyngham S.S, Goetz E.M..  2020.  The fiddler crab Minuca pugnax () (Decapoda: Brachyura: Ocypodidae) reduces saltmarsh algae in its expanded range . Journal of Crustacean Biology.
Baker R, Taylor MD, Able KW, Beck MW, Cebrian J, Colombano DD, Connolly RM, Currin C, Deegan LA, Feller IC et al..  2020.  Fisheries rely on threatened salt marshes. Science. 370:670–671.
Baker R, Taylor MD, Able KW, Beck MW, Cebrian J, Colombano DD, Connolly RM, Currin C, Deegan LA, Feller IC et al..  2020.  Fisheries rely on threatened salt marshes. Science. 370:670–671.
Baker R, Taylor MD, Able KW, Beck MW, Cebrian J, Colombano DD, Connolly RM, Currin C, Deegan LA, Feller IC et al..  2020.  Fisheries rely on threatened salt marshes. Science. 370:670–671.
Hautier Y, Zhang P, Loreau M, Wilcox KR, Seabloom EW, Borer ET, Byrnes JEK, Koerner SE, Komatsu KJ, Lefcheck JS et al..  2020.  General destabilizing effects of eutrophication on grassland productivity at multiple spatial scales. Nature Communications. 11:5375.
Bulseco AN, Vineis JH, Murphy AE, Spivak AC, Giblin AE, Tucker J, Bowen JL.  2020.  Metagenomics coupled with biogeochemical rates measurements provide evidence that nitrate addition stimulates respiration in salt marsh sediments. Limnology and Oceanography. 65
Donatelli C., Zhang X., Ganju N.K., Aretxabaleta A.L., Fagherazzi S., Leonardi N..  2020.  A nonlinear relationship between marsh size and sediment trapping capacity compromises salt marshes’ stability.. Geology.
Bowen JL, Giblin AE, Murphy AE, Bulseco AN, Deegan LA, Johnson DS, Nelson JA, Mozdzer TJ, Sullivan HL.  2020.  Not All Nitrogen Is Created Equal: Differential Effects of Nitrate and Ammonium Enrichment in Coastal Wetlands. BioScience. 70:1108–1119.
Howard E.M., Spivak A.C., Karolewski J.S., Gosslein K.M., Sandwidth Z.O., Manning C.C., Stanley R.H.R.  2020.  Oxygen and Triple Oxygen Isotope Measurements Provide Different Insights into Gross Oxygen Production in a Shallow Salt Marsh Pond.. Estuaries and Coasts.
Spivak A.C., Denmark A., Gosselin K., Sylva S.P..  2020.  Salt Marsh Pond Biogeochemistry Changes Hourly to Yearly but Does Not Scale With Dimensions or Geospatial Position. Journal of Geophysical Research: Biogeosciences. 125

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