Root production and mortality under elevated atmospheric carbon dioxide (original) (raw)
References
Baxter, R, Ashenden, T W, Sparks, T H and Farrar, J F 1994 Effects of elevated carbon dioxide on three montane grass species I. Growth and dry matter partitioning. J. Exp. Bot. 45, 305–315. Google Scholar
Burke, M K and Raynal, D J 1994 Fine root phenology, production and turnover in a northern hardwood forest ecosystem. Plant and Soil 162, 135–146. Google Scholar
Cotrufo, M F, Ineson, P and Rowland, A P 1994 Decomposition of tree leaf litters grown under elevated CO2—effect of litter quality. Plant and Soil 163, 121–130. Google Scholar
Ferris, R and Taylor, G 1995 Contrasting effects of elevated CO2 on the root and shoot growth of four native herbs commonly found in chalk grassland. New Phytol. 125, 855–866. Google Scholar
Fisher, M J, Rao, I M, Ayarza, M A, Lascano, C E, Sanz, J I, Thomas, R J and Vera, R R 1994 Carbon storage by introduced deep-rooted grasses in the South American savannas. Nature 371, 236–238. Article Google Scholar
Fogel, R 1985 Roots as primary producers in belowground ecosystems. In Ecological Interactions in Soil. Eds. A HFitter, DAtkinson, D JRead and M BUsher. pp 23–36. Brit. Ecol. Soc. Spec. Publ. 4. Blackwell Scientific Publications, Oxford, UK. Google Scholar
Garwood, E A 1957 Seasonal variation in appearance and growth of grass roots. J. Br. Grassl. Soc. 121–130.
Gibbs, R J and Reid, J B 1992 Comparison between net and grass root production by winter-wheat and by perennial ryegrass. N. Z. J. Crop Hort. Sci. 20, 483–487. Google Scholar
Gifford, R M 1994 The global carbon cycle: a viewpoint on the missing link. Aust. J. Plant Physiol. 21, 1–15. Google Scholar
Gordon, D C, VanVuuren, M M I, Marshall, B and Robinson, D 1995 Plant growth chambers for the simultaneous control of soil and air temperatures, and of atmospheric carbon dioxide concentration. Global Change Biol. 1, 455–464. Google Scholar
Harper, J L 1977 Population Biology of Plants. Academic Press, London, UK. 22p. Google Scholar
Head, G C 1966 Estimating seasonal changes in the quantity of white unsubersied root on fruit trees. J. Hort. Sci. 41, 197–206. Google Scholar
Hendrick, R L and Pregitzer, K S 1993 Patterns of fine root mortality in two sugar maple forests. Nature 361, 59–61. Article Google Scholar
Hunt, R, Hand, D W, Hannah, M A and Neal, A M 1995 Temporal and nutritional influences on the response to elevated CO2 in selected British grasses. Ann. Bot. 75, 207–216. Article Google Scholar
Kosola, K R, Eissenstat, D M and Graham, J H 1995 Root demography of mature citrus trees: the influence of Phytophthora nicotianae. Plant and Soil 171, 283–288. Google Scholar
Krauss, U and Deacon, J W 1994 Root turnover of groundnut (Arachis hypogea L.) in soil tubes. Plant and Soil 166, 259–270. Google Scholar
Loehle, C 1995 Anomalous responses of plants to CO2 enrichment. Oikos 73, 181–187. Google Scholar
McMichael, B L and Taylor, H M 1987 Applications and limitations of rhizotrons and minirhizotrons. In Minirhizotron Observation Tubes: Methods and Applications for Measuring Rhizosphere Dynamics. Ed. H MTaylor. pp 1–13. ASA Special Publication Number 50. Am. Soc. Agron., Madison, WI, USA. Google Scholar
Meharg, A A 1994 A critical review of labelling techniques used to quantify rhizosphere carbon flow. Plant and Soil 166, 55–62. Google Scholar
Nepstad, D C, deCarvalho, C R, Davidson, E A, Jipp, P H, Lefebvre, P A, Negreiros, G H, daSilva, E D, Stone, T A, Trumbore, S E and Vieira, S 1994 The role of deep roots in the hydrological and carbon cycles of Amazonian forests and pastures. Nature 372, 666–669. Article Google Scholar
Norby, R J 1994 Issues and perspectives for investigating root responses to elevated atmospheric carbon dioxide. Plant and Soil 165, 9–20. Google Scholar
Pregitzer, K S, Zak, D R, Curtis, P S, Kubiske, M E, Teeri, J A and Vogel, C S 1995 Atmospheric CO2, soil nitrogen and turnover of fine roots. New Phytol. 129, 579–585. Google Scholar
Prior, S A, Rogers, H H, Runion, G B and Hendrey, G R 1994 Free-air CO2 enrichment of cotton-vertical and lateral root distribution patterns. Plant and Soil 165, 33–44. Google Scholar
Rogers H H, Prior S A, Runion G B and Mitchell R J 1996 Plant response to atmospheric CO2 enrichment: Allocation patterns in crops. Plant and Soil 187.
Rogers, H H, Peterson, C M, McCrimmon, J N and Cure, J D 1992 Response of plant roots to elevated atmospheric carbon dioxide. Plant Cell Environ. 15, 749–752. Google Scholar
Rouhier, H, Billes, G, El Kohen, A, Mousseau, M and Bottner, P 1994 Effect of elevated on carbon and nitrogen distribution within a tree (Castanea sativa Mill.)-soil system. Plant and Soil 161, 281–292. Google Scholar
Stulen, I and Hertog, J 1993 Root growth and functioning under atmospheric CO2 enrichment. Vegetatio 104/105, 99–115. Google Scholar
Taylor, J A and Lloyd, J 1992 Sources and sinks of atmospheric CO2. Aust. J. Bot. 40, 407–418. Google Scholar
Troughton, A 1981 Length of life of grass roots. Grass Forage Sci. 36, 117–120. Google Scholar
Van deGeijn, S C and vanVeen, J A 1993 Implications of increased carbon dioxide levels for carbon input and turnover in soils. Vegetatio 104/105, 283–292. Google Scholar
Wolfenden, J and Diggle, P J 1995 Canopy gas-exchange and growth of upland pasture swards in elevated CO2. New Phytol. 130, 369–380. Google Scholar