%0 Journal Article %J Remote Sensing %D 2019 %T Characterizing a New England Saltmarsh with NASA G-LiHT Airborne Lidar %A Paynter, I. %A Schaaf, C. %A Bowen, J.L. %A Deegan, L. %A Peri, F. %A Cook, B. %K classification %K geomorphology %K LiDAR %K LTER-PIE %K modelling %K NSF-TIDE %K population dynamics %K saltmarsh %K tidal creek %B Remote Sensing %V 11 %P 509-539 %G eng %M PIE464 %3 Oracle Graduate Fellowship; NASA NNX14AK12G; NASA NNX14AI73G %] NSF-LTER-PIE; NSF-TIDE %R 10.3390/rs11050509 %F Journal Article %0 Journal Article %J Nature Geoscience %D 2019 %T Global-change controls on soil-carbon accumulation and loss in coastal vegetated ecosystems %A Spivak, A.C. %A Sanderman, J. %A Bowen, J.L. %A Canuel, E.A. %A Hopkinson, C.S. %K blue-carbon %K decomposition %K disturbance %K LTER-PIE %K mangrove %K organic matter %K salt marsh %K seagrass %K soil accumulation %B Nature Geoscience %V 12 %P 685-692 %G eng %M PIE486 %3 Woods Hole Sea Grant (NA14OAR4170104), NOAA NSC (NA14NOS4190145), NSF DEB (1350491/1719446), NSF-DEB 1556554, NSF OCE-1238212, NSF-OCE 1637630, NSF-OCE 12-37140, NSF-OCE18-32178 %] NSF-LTER-PIE %R 10.1038/s41561-019-0435-2 %F Journal Article %0 Journal Article %J Limnology and Oceanography %D 2019 %T Metagenomics coupled with biogeochemical rates measurements provide evidence that nitrate addition stimulates respiration in salt marsh sediments. %A Bulseco, A.N. %A Vineis, J.H. %A Murphy, A.E. %A Spivak, A.C. %A Giblin, A.E. %A Tucker, J. %A Bowen, J.L. %K denitrification %K dissolved inorganic carbon %K flow through reactor %K inorganic nutrients %K LTER-PIE %K nitrate addition %K population dynamics %K salt marsh %K shotgun metagenomics %B Limnology and Oceanography %V 65 %G eng %M PIE484 %3 Ford Foundation; NOAA Grant Number: 3004701234; NSF Grants DBI1722553; DEB0213767; DEB1350491; DEB1354494; DEB1655552; DEB1701748; OCE0423565; OCE0923689; OCE0924287; OCE1058747; OCE1353140; OCE1637630; Woods Hole Sea Grant, WHOI Grant Numbers: NA140AR4170074; NA18OAR4170104   %] NSF-LTER-PIE %R 10.1002/lno.11326 %F Journal Article %0 Journal Article %J Global Change Biology %D 2019 %T Nitrate addition stimulates microbial decomposition of organic matter in salt marsh sediments %A Bulseco, A.N. %A Giblin, A.E. %A Tucker, J. %A Murphy, A.E. %A Hiller-Bittrolff, K. %A Bowen, J.L. %K 16S rRNA gene %K anaerobic respiration %K decomposition %K flow through reactor %K inorganic nitrogen %K LTER-PIE %K microbes %K nitrate %K organic matter %K salt marsh %B Global Change Biology %G eng %M PIE479 %] NSF-LTER-PIE %R 10.1111/gcb.14726 %F Journal Article %0 Journal Article %J Microbial Ecology %D 2018 %T Nutrient Enrichment Alters Salt Marsh Fungal Communities and Promotes Putative Fungal Denitrifiers %A Kearns, P.J. %A Bulseco-McKim, A.N. %A Hoyt, H. %A Angell, J.H. %A Bowen, J.L. %K decomposition %K fungal denitrification %K fungal ecology %K inorganic nutrients %K LTER-PIE %K nutrient enrichment %K organic matter %K population dynamics %K salt marsh %B Microbial Ecology %G eng %M PIE462 %3 OCE 1673630, OCE 0423565, OCE 1058747, DEB 0924287, DEB 0923689, DEB 0213767, DEB 1354494, DEB 1353140, DEB 1719621 %] NSF-LTER-PIE %R 10.1007/s00248-018-1223-z %F Journal Article %0 Journal Article %J Aquatc Microbial Ecology %D 2017 %T Effect of short-term, diel changes in environmental conditions on active microbial communities in a salt marsh pond %A Kearns,P.J. %A Holloway, D. %A Angell, J.H. %A Feinman, S.G. %A Bowen, J.L. %K disturbance %K dormancy %K LTER-PIE %K marsh pond %K microbial activity %K population dynamics %K rare biosphere %K salt marsh %B Aquatc Microbial Ecology %V 80 %P 29-41 %G eng %M PIE443 %3 OCE-0423565, OCE-1058747, DEB-1350491, DBI-1359241 %] NSF-LTER-PIE %R 10.3354/ame01837 %F Journal Article %0 Journal Article %J Nature Communications %D 2016 %T Nutrient enrichment induces dormancy and decreases diversity of active bacteria %A Kearns, P. %A Angell, J.H. %A Howard, E. %A Deegan, L.A. %A Stanley, R.H. %A Bowen, J.L. %K bacteria %K dormancy %K LTER-PIE %K nutrient enrichment %K population dynamics %B Nature Communications %V 7 %G eng %M PIE420 %3 OCE-0423565, OCE-1058747, OCE-0924287, OCE-0923689, DEB-0213767, DEB-1354494, DEB-1353140 %] NSF-LTER-PIE %R 10.1038/ncomms12881 %F Journal Article %0 Journal Article %J The ISME Journal %D 2011 %T Microbial community composition in salt marsh sediments resists perturbation by nutrient enrichment %A Bowen, J.L. %A Ward, B.B. %A Morrison, H.G. %A Hobbie, J.E. %A Valiela, I. %A Deegan, L.A. %A Sogin, M.L. %K denitrification %K disturbance %K estuaries %K eutrophication %K inorganic nitrogen %K LTER-PIE %K microbes %K nirS %K population dynamics %K resistance %K salt marsh %B The ISME Journal %V 5 %P 1540-1548 %G eng %M PIE267 %] NSF-LTER-PIE %R 10.1038/ismej.2011.22 %F Journal Article %0 Journal Article %J Limnology and Oceanography %D 2009 %T Increased supply of ambient nitrogen has minimal effect on salt marsh bacterial production %A Bowen, J.L. %A Crump, B.C. %A Deegan, L.A. %A Hobbie, J.E. %K bacterial production %K disturbance %K inorganic nutrients %K LTER-PIE %K nitrogen %K salt marsh %B Limnology and Oceanography %V 54 %P 713 - 722 %G eng %M PIE209 %] NSF-LTER-PIE %R 10.4319/lo.2009.54.3.0713 %F Journal Article %0 Journal Article %J The ISME Journal %D 2009 %T Salt marsh sediment bacteria: their distribution and response to external nutrient inputs %A Bowen, J.L. %A Crump, B.C. %A Deegan, L.A. %A Hobbie, J.E. %K bacteria %K disturbance %K inorganic nutrients %K LTER-PIE %K nitrogen %K salt marsh %B The ISME Journal %V 3 %P 924 - 934 %G eng %M PIE169 %] NSF-LTER-PIE %R 10.1038/ismej.2009.44 %F Journal Article %0 Journal Article %J Ecological Applications %D 2007 %T Susceptibility of salt marshes to nutrient enrichment and predator removal %A Deegan, L.A. %A Bowen, J.L. %A Drake, D.C. %A Fleeger, J.W. %A Friedrichs, C.T. %A Galván, K.A. %A Hobbie, J.E. %A Hopkinson, C. %A Johnson, D.S. %A Johnson, J.M. %A Lemay, L.E. %A Miller, E.E. %A Peterson, B.J. %A Picard, C. %A Sheldon, S. %A Sutherland, M. %A Vallino, J. %A Warren, R.S. %K bottom-up %K disturbance %K eutrophication %K Fundulus heteroclitus %K inorganic nutrients %K LTER-PIE %K multiple stressors %K nutrient loading %K organic matter %K population dynamics %K primary production %K salt marsh %K Spartina alterniflora %K Spartina patens %K species change %K top-down control %B Ecological Applications %V 17 %P S-42-S63 %G eng %M PIE236 %] NSF-LTER-PIE %R 10.1890/06-0452.1 %F Journal Article