Plant community feedbacks and long-term ecosystem responses to multi-factored global change

AoB PLANTS

Volumn 6, Issue , 2014, Pages

  Langley, J Adam ^a   Hungate, Bruce A ^b  

^a VILLANOVA UNIVERSITY   (United States)

^b NORTHERN ARIZONA UNIVERSITY   (United States)

Author keywords

CO2 fertilization; Ecological tradeoffs; Elevated CO2; Multiple factors; Nitrogen pollution; Plant productivity

Indexed keywords

EID: 84986567955     PISSN: None     EISSN: 20412851     Source Type: Journal    
DOI: 10.1093/aobpla/plu035     Document Type: Short Survey

References (84)

1. 2 enrichment (FACE)? A meta-analytic review of the responses of photosynthesis, canopy. New Phytologist 165: 351-371.
2. 2 concentration is greater in slow-growing than fast-growing plants. Functional Ecology 27:1011-1022.
3. 2. Vegetatio 104: 133-143.
4. Bala G, Devaraju N, Chaturvedi RK, Caldeira K, Nemani R. 2013. Nitrogen deposition: how important is it for global terrestrial carbon uptake? Biogeosciences 10:7147-7160.
5. Bloom AJ, Burger M, Rubio-Asensio JS, Cousins AB. 2010. Carbon dioxide enrichment inhibits nitrate assimilation in wheat and Arabidopsis. Science 328:899-903.
6. 2 enrichment on aboveground biomass production, flowering phenology, and community structure in an upland grassland ecosystem. Ecosystems 13:888-900.
7. Bonan GB. 2008. Ecological climatology: concepts and applications. Cambridge, NY: Cambridge University Press.
8. Bonan GB, Levis S. 2010. Quantifying carbon-nitrogen feedbacks in the Community Land Model (CLM4). Geophysical Research Letters 37.
9. Bradford MA, Davies CA, Frey SD, Maddox TR, Melillo JM, Mohan JE, Reynolds JF, Treseder KK, Wallenstein MD. 2008. Thermal adaptation of soil microbial respiration to elevated temperature. Ecology Letters 11:1316-1327.
10. Brown JR, Blankinship JC, Niboyet A, van Groenigen KJ, Dijkstra P, Le Roux X, Leadley PW, Hungate BA. 2012. Effects of multiple global change treatments on soil N2O fluxes. Biogeochemistry 109: 85-100.
11. Chapin FS, Walker BH, Hobbs RJ, Hooper DU, Lawton JH, Sala OE, Tilman D. 1997. Biotic control over the functioning of ecosystems. Science 277:500-504.
12. Craine JM. 2009. Resource strategies of wild plants. Princeton, NJ: Princeton University Press.
13. Craine JM, Dybzinski R. 2013. Mechanisms of plant competition for nutrients, water and light. Functional Ecology 27:833-840.
14. Davidson A, Jennions M, Nicotra A. 2011. Do invasive species show higher phenotypic plasticity than native species and, if so, is it adaptive? A meta-analysis. Ecology Letters 14:419-431.
15. Dawes MA, Hagedorn F, Handa IT, Streit K, Ekblad A, Rixen C, Körner C, Hättenschwiler S. 2013. An alpine treeline in a carbon dioxide-rich world: synthesis of a nine-year free-air carbon dioxide enrichment study. Oecologia 171:623-637.
16. De Marco A, Screpanti A, Attorre F, Proietti C, Vitale M. 2013. Assessing ozone and nitrogen impact on net primary productivitywith a generalised non-linear model. Environmental Pollution 172:250-263.
17. Denman KL, Brasseur G, Chidthaisong A, Ciais P, Cox PM, Dickinson RE, Hauglustaine D, Heinze C, Holland E, Jacob D, Lohmann U, Ramachandran S, da Silva Dias PL, Wofsy SC, Zhang XY. 2007. Couplings between changes in the climate system and biogeochemistry. In: Solomon S, Qin D, Manning M, Chen Z, Marquis M, Averyt KB, Tignor M, Miller HL, eds. Climate Change 2007: the physical science basis. Contribution of working group I to the fourth assessment report of the Intergovernmental Panel on Climate Change. New York, NY: Cambridge University Press.
18. 2 and temperature. Global Change Biology 18:2681-2693.
19. 2 effects on semi-arid grassland plants in relation to water availability and competition. Functional Ecology 24: 1152-1161.
20. Dolman AJ, van der Werf GR, van der Molen MK, Ganssen G, Erisman JW, Strengers B. 2010. A carbon cycle science update since IPCC AR-4. Ambio 39:402-412.
21. Dukes JS, Chiariello NR, Cleland EE, Moore LA, Shaw MR, Thayer S, Tobeck T, Mooney HA, Field CB. 2005. Responses of grassland production to single and multiple global environmental changes. Plos Biology 3:1829-1837.
22. Dukes JS, Chiarello NR, Loarie SR, Field CB. 2011. Strong response of an invasive plant species (Centaurea solstitialis L.) to global environmental changes. Ecological Applications 21:1887-1894.
23. 2 effects on C3-C4 plant interactions and tissue nitrogen in a Chesapeake Bay tidal wetland. Global Change Biology 13:202-215.
24. Friedlingstein P, Prentice IC. 2010. Carbon-climate feedbacks: a review of model and observation based estimates. Current Opinion in Environmental Sustainability 2:251-257.
25. Friedlingstein P, Cox P, Betts R, Bopp L, Von Bloh W, Brovkin V, Cadule P, Doney S, Eby M, Fung I, Bala G, John J, Jones C, Joos F, Kato T, Kawamiya M, Knorr W, Lindsay K, Matthews HD, Raddatz T, Rayner P, Reick C, Roeckner E, Schnitzler KG, Schnur R, Strassmann K, Weaver AJ, Yoshikawa C, Zeng N. 2006. Climate-carbon cycle feedback analysis: results from the (CMIP)-M-4 model intercomparison. Journal of Climate 19:3337-3353.
26. 2 had no effect on the N concentration of plant litter in fertile, mixed grassland. Plant and Soil 224:43-50.
27. Isbell F, Reich PB, Tilman D, Hobbie SE, Polasky S, Binder S. 2013. Nutrient enrichment, biodiversity loss, and consequent declines in ecosystem productivity. Proceedings of the National Academy of Sciences of the USA 110:11911-11916.
28. 2 conditions: a meta-analysis of reports on 79 crop and wild species. New Phytologist 156:9-26.
29. Kardol P, Cregger MA, Campany CE, Classen AT. 2010. Soil ecosystem functioning under climate change: plant species and community effects. Ecology 91:767-781.
30. 2: a synthesis of molecular to ecosystem results from the Aspen FACE project. Functional Ecology 17:289-304.
31. 2 in combination: results from the CLIMAITE experiment. Ecosystems 15:269-283.
32. 2 and O3 effects on forest growth. Global Change Biology 12:1054-1068.
33. 2 levels limited by nitrogen-induced plant species shift. Nature 466:96-99.
34. LeBauer DS, Treseder KK. 2008. Nitrogen limitation of net primary productivity in terrestrial ecosystems is globally distributed. Ecology 89:371-379.
35. Lee TD, Barrott SH, Reich PB. 2011. Photosynthetic responses of 13 grassland species across 11 years of free-air CO(2) enrichment is modest, consistent and independent of N supply. Global Change Biology 17:2893-2904.
36. Leuzinger S, Luo Y, Beier C, Dieleman W, Vicca S, Korner C. 2011. Do global change experiments overestimate impacts on terrestrial ecosystems? Trends in Ecology & Evolution 26:236-241.
37. 2] on ecosystem carbon and water dynamics in different climatic zones. Global Change Biology 14:1986-1999.
38. 2 fertilization for future climate change in a coupled climate-carbon model. Global Change Biology 13:1068-1078.
39. Morgan JA, LeCain DR, Pendall E, Blumenthal DM, Kimball BA, Carrillo Y, Williams DG, Heisler-White J, Dijkstra FA, West M. 2011. C4 grasses prosper as carbon dioxide eliminates desiccation in warmed semi-arid grassland. Nature 476:202-205.
40. 2 and N: a comparison of native and introduced Phragmites australis. Plos One 7:e42794.
41. Mü ller I, Schmid B, Weiner J. 2000. The effect of nutrient availability on biomass allocation patterns in 27 species of herbaceous plants. Perspectives in Plant Ecology, Evolution and Systematics 3:115-127.
42. 2 in a temperate grassland. Global Change Biology 20:158-169.
43. Niu SL, Sherry RA, Zhou XH, Wan SQ, Luo YQ. 2010. Nitrogen regulation of the climate-carbon feedback: evidence from a long-term global change experiment. Ecology 91:3261-3273.
44. 2 and global warming in a multi-factor world. New Phytologist 162:281-293.
45. 2 enrichment (FACE) experiments. Annual Review of Ecology, Evolution, and Systematics 42:181.
46. 2 enhancement of forest productivity constrained by limited nitrogen availability. Proceedings of the National Academy of Sciences of the USA 107:19368-19373.
47. Pendall E, Osanai Y, Williams AL, Hovenden MJ. 2011. Soil carbon storage under simulated climate change is mediated by plant functional type. Global Change Biology 17:505-514.
48. Pennings SC, Stanton LE, Brewer JS. 2002. Nutrient effects on the composition of salt marsh plant communities along the southern Atlantic and Gulf coasts of the United States. Estuaries 25: 1164-1173.
49. 2 trends. Global Change Biology 14:2015-2039.
50. Pinsonneault AJ, Matthews HD, Kothavala Z. 2011. Benchmarking climate-carbon model simulations against forest FACE data. Atmosphere-Ocean 49:41-50.
51. 2-caused change in plant species composition rivals the shift in vegetation between mid-grass and tallgrass prairies. Global Change Biology 18:700-710.
52. Polley HW, Derner JD, Jackson RB, Wilsey BJ, Fay PA. 2014. Impacts of climate change drivers on C4 grassland productivity: scaling driver effects through the plant community. Journal of Experimental Botany 65:3415-3424.
53. 2: on winners, losers and functional groups. New Phytologist 157:175-198.
54. Purves D, Pacala S. 2008. Predictive models of forest dynamics. Science 320:1452-1453.
55. 2 reduces losses of plant diversity caused by nitrogen deposition. Science 326:1399-1402.
56. 2 fertilization of plant biomass. Nature Climate Change 3: 278-282.
57. 2. Nature 440: 922-925.
58. Reynolds HL, D'Antonio C. 1996. The ecological significance of plasticity in root weight ratio in response to nitrogen: opinion. Plant and Soil 185:75-97.
59. Scheiter S, Langan L, Higgins SI. 2013. Next-generation dynamic global vegetation models: learning from community ecology. New Phytologist 198:957-969.
60. 2 enrichment altered the mobilization of N from soil in Lolium perenne L. swards. Global Change Biology 10:1377-1388.
61. 2 enrichment in a Florida scrub-oak ecosystem. Global Change Biology 15:356-367.
62. Shaver GR, Canadell J, Chapin FS, Gurevitch J, Harte J, Henry G, Ineson P, Jonasson S, Melillo J, Pitelka L, Rustad L. 2000. Global warming and terrestrial ecosystems: a conceptual framework for analysis. Bioscience 50:871-882.
63. 2. Science 298:1987-1990.
64. Sitch S, Huntingford C, Gedney N, Levy PE, Lomas M, Piao SL, Betts R, Ciais P, Cox P, Friedlingstein P, Jones CD, Prentice IC, Woodward FI. 2008. Evaluation of the terrestrial carbon cycle, future plant geography and climate-carbon cycle feedbacks using five dynamic global vegetation models (DGVMs). Global Change Biology 14:2015-2039.
65. 2 enrichment induces a differential biomass response in a mixed species temperate forest plantation. New Phytologist 198:156-158.
66. Smith MD, Knapp AK, Collins SL. 2009. A framework for assessing ecosystem dynamics in response to chronic resource alterations induced by global change. Ecology 90:3279-3289.
67. 2. Global Change Biology 19:45-63.
68. Sokolov AP, Kicklighter DW, Melillo JM, Felzer BS, Schlosser CA, Cronin TW. 2008. Consequences of considering carbon-nitrogen interactions on the feedbacks between climate and the terrestrial carbon cycle. Journal of Climate 21:3776-3796.
69. Suding KN, Lavorel S, Chapin FS, Cornelissen JHC, Diaz S, Garnier E, Goldberg D, Hooper DU, Jackson ST, Navas ML. 2008. Scaling environmental change through the community-level: a trait-based response-and-effect framework for plants. Global Change Biology 14:1125-1140.
70. 2 fertilization and climate variability. Global Biogeochemical Cycles 21. doi:10.1029/2006GB002868.
71. Thornton PE, Doney SC, Lindsay K, Moore JK, Mahowald N, Randerson JT, Fung I, Lamarque J-F, Feddema JJ, Lee Y-H. 2009. Carbon-nitrogen interactions regulate climate-carbon cycle feedbacks: results from an atmosphere-ocean general circulation model. Biogeosciences Discussion 6:3303-3354.
72. Tilman D. 1987. Secondary succession and the pattern of plant dominance along experimental nitrogen gradients. Ecological Monographs 57:189-214.
73. Tilman D. 1988. Plant strategies and the dynamics and structure of plant communities. Princeton, NJ: Princeton University Press.
74. Tilman D, Reich PB, Knops JMH. 2006. Biodiversity and ecosystem stability in a decade-long grassland experiment. Nature 441: 629-632.
75. Ward SE, Ostle NJ, Oakley S, Quirk H, Henrys PA, Bardgett RD. 2013. Warming effects on greenhouse gas fluxes in peatlands are modulated by vegetation composition. Ecology Letters 16: 1285-1293.
76. 2 is not accompanied by reduced seed quality in Pinus taeda L. Global Change Biology 16:1046-1056.
77. 2 and nitrogen: contrasting resource capture strategies. Estuaries and Coasts 35:1028-1035.
78. 2 enrichment alter demographics in four co-occurring grassland species. New Phytologist 176:365-374.
79. Wu Z, Dijkstra P, Koch GW, Hungate BA. 2012. Biogeochemical and ecological feedbacks in grassland responses to warming. Nature Climate Change 2:458-461.
80. Xia JY, Wan SQ. 2008. Global response patterns of terrestrial plant species to nitrogen addition. New Phytologist 179:428-439.
81. Yang HJ, Wu MY, Liu WX, Zhang Z, Zhang NL, Wan SQ. 2011. Community structure and composition in response to climate change in a temperate steppe. Global Change Biology 17:452-465.
82. Zaccherio MT, Finzi AC. 2007. Atmospheric deposition may affect northern hardwood forest composition by altering soil nutrient supply. Ecological Applications 17:1929-1941.
83. Zaehle S, Dalmonech D. 2011. Carbon-nitrogen interactions on land at global scales: current understanding in modelling climate biosphere feedbacks. Current Opinion in Environmental Sustainability 3:311-320.
84. 2, and nitrogen deposition on grassland diversity. Proceedings of the National Academy of Sciences of the USA 100: 7650-7654.