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Items: 22

1.

Anthropogenic versus fish-derived nutrient effects on seagrass community structure and function.

Allgeier JE, Layman CA, Montaña CG, Hensel E, Appaldo R, Rosemond AD.

Ecology. 2018 Aug;99(8):1792-1801. doi: 10.1002/ecy.2388. Epub 2018 Jul 10. Erratum in: Ecology. 2019 Jul;100(7):e02751.

PMID:
29992554
2.

Litter P content drives consumer production in detritus-based streams spanning an experimental N:P gradient.

Demi LM, Benstead JP, Rosemond AD, Maerz JC.

Ecology. 2018 Feb;99(2):347-359. doi: 10.1002/ecy.2118. Epub 2018 Jan 16.

PMID:
29266195
3.

Nutrients and temperature additively increase stream microbial respiration.

Manning DWP, Rosemond AD, Gulis V, Benstead JP, Kominoski JS.

Glob Chang Biol. 2018 Jan;24(1):e233-e247. doi: 10.1111/gcb.13906. Epub 2017 Oct 12.

PMID:
28902445
4.

Changes in nutrient stoichiometry, elemental homeostasis and growth rate of aquatic litter-associated fungi in response to inorganic nutrient supply.

Gulis V, Kuehn KA, Schoettle LN, Leach D, Benstead JP, Rosemond AD.

ISME J. 2017 Dec;11(12):2729-2739. doi: 10.1038/ismej.2017.123. Epub 2017 Jul 21.

5.

Global synthesis of the temperature sensitivity of leaf litter breakdown in streams and rivers.

Follstad Shah JJ, Kominoski JS, Ardón M, Dodds WK, Gessner MO, Griffiths NA, Hawkins CP, Johnson SL, Lecerf A, LeRoy CJ, Manning DWP, Rosemond AD, Sinsabaugh RL, Swan CM, Webster JR, Zeglin LH.

Glob Chang Biol. 2017 Aug;23(8):3064-3075. doi: 10.1111/gcb.13609. Epub 2017 Feb 28.

PMID:
28039909
6.

Convergence of detrital stoichiometry predicts thresholds of nutrient-stimulated breakdown in streams.

Manning DW, Rosemond AD, Gulis V, Benstead JP, Kominoski JS, Maerz JC.

Ecol Appl. 2016 Sep;26(6):1745-1757. doi: 10.1890/15-1217.1.

PMID:
27755690
7.

Salamander growth rates increase along an experimental stream phosphorus gradient.

Bumpers PM, Maerz JC, Rosemond AD, Benstead JP.

Ecology. 2015 Nov;96(11):2994-3004.

PMID:
27070018
8.

Detrital stoichiometry as a critical nexus for the effects of streamwater nutrients on leaf litter breakdown rates.

Manning DW, Rosemond AD, Kominoski JS, Gulis V, Benstead JP, Maerz JC.

Ecology. 2015 Aug;96(8):2214-24.

PMID:
26405746
9.

Low-to-moderate nitrogen and phosphorus concentrations accelerate microbially driven litter breakdown rates.

Kominoski JS, Rosemond AD, Benstead JP, Gulis V, Maerz JC, Manning DW.

Ecol Appl. 2015 Apr;25(3):856-65.

PMID:
26214929
10.

Metabolic theory and taxonomic identity predict nutrient recycling in a diverse food web.

Allgeier JE, Wenger SJ, Rosemond AD, Schindler DE, Layman CA.

Proc Natl Acad Sci U S A. 2015 May 19;112(20):E2640-7. doi: 10.1073/pnas.1420819112. Epub 2015 Apr 15.

11.

Freshwater ecology. Experimental nutrient additions accelerate terrestrial carbon loss from stream ecosystems.

Rosemond AD, Benstead JP, Bumpers PM, Gulis V, Kominoski JS, Manning DW, Suberkropp K, Wallace JB.

Science. 2015 Mar 6;347(6226):1142-5. doi: 10.1126/science.aaa1958.

12.

Consistent nutrient storage and supply mediated by diverse fish communities in coral reef ecosystems.

Allgeier JE, Layman CA, Mumby PJ, Rosemond AD.

Glob Chang Biol. 2014 Aug;20(8):2459-72. doi: 10.1111/gcb.12566. Epub 2014 Apr 1.

PMID:
24692262
13.

Increasing donor ecosystem productivity decreases terrestrial consumer reliance on a stream resource subsidy.

Davis JM, Rosemond AD, Small GE.

Oecologia. 2011 Nov;167(3):821-34. doi: 10.1007/s00442-011-2026-9. Epub 2011 Jun 7.

PMID:
21647783
14.

Marine fisheries declines viewed upside down: human impacts on consumer-driven nutrient recycling.

Layman CA, Allgeier JE, Rosemond AD, Dahlgren CP, Yeager LA.

Ecol Appl. 2011 Mar;21(2):343-9.

PMID:
21563567
15.

Long-term nutrient enrichment decouples predator and prey production.

Davis JM, Rosemond AD, Eggert SL, Cross WF, Wallace JB.

Proc Natl Acad Sci U S A. 2010 Jan 5;107(1):121-6. doi: 10.1073/pnas.0908497107. Epub 2009 Dec 14.

16.

Nutrient enrichment alters storage and fluxes of detritus in a headwater stream ecosystem.

Benstead JP, Rosemond AD, Cross WF, Wallace JB, Eggert SL, Suberkropp K, Gulis V, Greenwood JL, Tant CJ.

Ecology. 2009 Sep;90(9):2556-66.

PMID:
19769133
17.

Comparison of fungal activities on wood and leaf litter in unaltered and nutrient-enriched headwater streams.

Gulis V, Suberkropp K, Rosemond AD.

Appl Environ Microbiol. 2008 Feb;74(4):1094-101. Epub 2007 Dec 14.

18.

Nutrient enrichment reduces constraints on material flows in a detritus-based food web.

Cross WF, Wallace JB, Rosemond AD.

Ecology. 2007 Oct;88(10):2563-75.

PMID:
18027759
19.
20.

Nutrients stimulate leaf breakdown rates and detritivore biomass: bottom-up effects via heterotrophic pathways.

Greenwood JL, Rosemond AD, Wallace JB, Cross WF, Weyers HS.

Oecologia. 2007 Apr;151(4):637-49. Epub 2006 Dec 5.

PMID:
17146682
21.

Whole-system nutrient enrichment increases secondary production in a detritus-based ecosystem.

Cross WF, Wallace JB, Rosemond AD, Eggert SL.

Ecology. 2006 Jun;87(6):1556-65.

PMID:
16869431
22.

Interactions among irradiance, nutrients, and herbivores constrain a stream algal community.

Rosemond AD.

Oecologia. 1993 Jul;94(4):585-594. doi: 10.1007/BF00566976.

PMID:
28314001

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