PIE LTER Publications

Search

Show only items where

Author

Type

Term

Year

Keyword

Export 117 results:

Filters: Keyword is salt marsh [Clear All Filters]

A B C D E F G H I J K L M N O P Q R S T U V W X Y Z

A

Agnew A.M., Shull D.H., Buchsbaum R.N.. 2003. Growth of a salt marsh invertebrate on several species of marsh grass detritus.. Biological Bulletin. 205:238-239.

Alizad K, Morris JT, Bilskie MV, Passeri DL, Hagen SC. 2022. Integrated Modeling of Dynamic Marsh Feedbacks and Evolution Under Sea-Level Rise in a Mesotidal Estuary (Plum Island, MA, USA). Water Resources Research. 58:e2022WR032225.

B

Bahr M., Crump B.C., Klepac-Ceraj V., Teske A.P., Sogin M.L., Hobbie J.E.. 2005. Molecular characterization of sulfate-reducing bacteria in a New England salt marsh.. Environmental Microbiology. 7:1175-1185.

Bauer C.. 2018. Interacting effects of genotype and the environment on tallform Spartina alterniflora. MS

Booth H.S.. 2013. Does Chronic Nutrient Enrichment Result in a Trophic Bottleneck in a Salt Marsh? Honors, BS

Bowen J.L., Crump B.C., Deegan L.A., Hobbie J.E.. 2009. Increased supply of ambient nitrogen has minimal effect on salt marsh bacterial production. Limnology and Oceanography . 54:713-722.

Bowen J.L., Ward B.B., Morrison H.G., Hobbie J.E., Valiela I., Deegan L.A., Sogin M.L.. 2011. Microbial community composition in salt marsh sediments resists perturbation by nutrient enrichment. The ISME Journal. 5:1540-1548.

Bowen J.L., Crump B.C., Deegan L.A., Hobbie J.E.. 2009. Salt marsh sediment bacteria: their distribution and response to external nutrient inputs. The ISME Journal. 3:924-934.

Buchsbaum R., Catena E.H., James-Pirri M.J.. 2006. Changes in salt marsh vegetation, Phragmites australis, and nekton in response to increased tidal flushing in a New England salt marsh.. Wetlands. 26:544-557.

Buchsbaum R.N., Deegan L.A., Horowitz J., Garritt R.H., Ludlam J.P., Shull D.H. 2009. Effects of regular salt marsh haying on marsh plants, algae, invertebrates and birds at Plum Island Sound, Massachusetts. Wetlands Ecology and Management. 17:469-487.

Bulseco A.N., Giblin A.E., Tucker J., Murphy A.E., Hiller-Bittrolff K., Bowen J.L.. 2019. Nitrate addition stimulates microbial decomposition of organic matter in salt marsh sediments. Global Change Biology.

Bulseco A.N., Vineis J.H., Murphy A.E., Spivak A.C., Giblin A.E., Tucker J., Bowen J.L.. 2019. Metagenomics coupled with biogeochemical rates measurements provide evidence that nitrate addition stimulates respiration in salt marsh sediments.. Limnology and Oceanography. 65

Bulseco-McKim A.. 2018. The role of nitrate as an electron acceptor in microbial decomposition of salt marsh sediment organic matter and implications for carbon storage. PhD

Burdick D., Buchsbaum R., Holt E.. 2001. Variation in soil salinity associated with the expansion of Phragmites australis in salt marshes. Environmental and Experimental Botany. 46:247-261.

C

Cahoon D.R., Olker J.H., Yeates A.G., Guntenspergen G.R., Grace J.B., Adamowicz S.C., Anisfeld S., Baldwin A.H., Barrett N., Beckett L. et al.. 2019. Hurricane Sandy Impacts on Coastal Wetland Resilience. Open File Report. :117.

Cavatorta J., Johnston M., Hopkinson C.S., Valentine V.. 2003. Patterns of sedimentation in a salt marsh-dominated estuary.. Biological Bulletin. 205:239-241.

Chaisson C.. 2012. Factors influencing stem density in creekbank Spartina alterniflora in a New England salt marsh. BA:24.

Charles H.. 2007. Effects of Warming and Altered Precipitation on Plant and Nutrient Dynamics of a New England Salt Marsh. M.S.:82.

Charles H., Dukes J.S.. 2009. Effects of warming and altered precipitation on plant and nutrient dynamics of a New England salt marsh. Ecological Applications. 19:1758-1773.

Crosby S.C., Angermeyer A., Adler J.M., Bertness M.D., Deegan L.A., Sibinga N., Leslie H.M.. 2016. Spartina alterniflora biomass allocation and temperature: implications for salt marsh persistence with sea-level rise. Estuaries and Coasts.

D

Deegan L.A., Johnson D.S., Warren R.S., Peterson B.J., Fleeger J.W., Fagherazzi S., Wollheim W.M.. 2012. Coastal eutrophication as a driver of salt marsh loss. Nature. 490:388-392.

Deegan L.A, Hughes J.E., Rountree R.A.. 2000. Salt marsh ecosystem support of marine transient species.. Concepts and Controversies in Tidal Marsh Ecology. :333-365.

Deegan L.A., Bowen J.L., Drake D.C., Fleeger J.W., Friedrichs C.T., Galván K.A., Hobbie J.E., Hopkinson C., Johnson D.S., Johnson J.M. et al.. 2007. Susceptibility of salt marshes to nutrient enrichment and predator removal. Ecological Applications. 17:S-42-S63.

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.

Drake D.C., Peterson B.J., Galván K.A., Deegan L.A., Fleeger J.W., Hopkinson C., Johnson J.M., Koop-Jakobsen K., Lemay L.E., Miller E.E. et al.. 2009. Salt marsh ecosystem biogeochemical responses to nutrient enrichment: A paired ¹⁵N tracer study.. Ecology. 90:2535-2546.

Pages