Climate Change and Global Crop ProductivityK. R. Reddy, H. F. Hodges CABI, 25 apr. 2000 - 488 sidor Annotation. Worldwide climatic changes have been raising concerns about potential changes to crop yields and production systems. Such concerns include the ability to accommodate these uncertain effects in order to ensure an adequate food supply for an increasing population. Written by leadinginternational experts, this book is the first comprehensive examination of the potential effects climate change, particularly green house gases, will have on agroecosystems. It also reviews the effects such systems have on climate change itself. |
Innehåll
David W Wolf Cornell University 134A Plant Science Building Tower | 213 |
Tree Crops | 245 |
References | 263 |
Productive | 271 |
References | 288 |
Crassulacean | 315 |
CropWeed | 333 |
References | 348 |
| 101 | |
| 107 | |
References | 127 |
Soybean | 133 |
References | 155 |
Cotton | 161 |
References | 183 |
Root | 189 |
References | 209 |
References | 370 |
References | 382 |
Groth Department of Plant Pathology University of Minnesota | 387 |
References | 402 |
References | 419 |
Role of Biotechnology in Crop Productivity in a Changing | 425 |
References | 434 |
Index | 457 |
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Climate Change and Global Crop Productivity K. Raja Reddy,H. F. Hodges Ingen förhandsgranskning - 2000 |
Vanliga ord och fraser
acclimation Agricultural Agronomy air temperature Allen ambient CO2 aphid atmospheric CO2 biomass biomass production C4 plants C4 species canopy carbon dioxide Cell and Environment climate models CO2 concentration CO2 enrichment CO2 uptake cotton Crop Science cultivars decreased doubled CO2 dry matter Ecosystems effects of CO2 effects of elevated elevated CO2 environmental evapotranspiration factors global climate change global warming grassland greenhouse greenhouse gas growth and yield growth rate high CO2 high temperatures higher impact increased CO2 interactions irrigated K.R. Reddy Kimball L.H. Jr leaf area maize mol-¹ nitrogen Nobel nutrient Oecologia ozone pCO2 photorespiration photosynthesis photosynthetic rates Plant Physiology plants grown potato potential predicted reduced relative Research respiration responses to CO2 responses to elevated rice root Rubisco ryegrass scen scenarios season senescence simulation soil sorghum soybean spikelet stomatal studies temperature transpiration trees tuber variability vegetation weeds wheat µmol CO2 mol-1 µmol mol-1
Populära avsnitt
Sida 183 - Dahlman, RC 1987. Response of vegetation to rising carbon dioxide: photosynthesis, biomass, and seed yield of soybean.
Sida 127 - More efficient plants: a consequence of rising atmospheric CO2?', Annual Reviews of Plant Physiology and Plant Molecular Biology, 48: 609-39.
Sida 351 - Patterson, DT (1986) Responses of soybean (Glycine max) and three C4 grass weeds to CO2 enrichment during drought. Weed Science 34, 203-210. Patterson, DT (1993) Implications of global climate change for impact of weeds, insects and plant diseases. International Crop Science, 1, 273-280. Patterson, DT (1995a) Weeds in a changing climate. Weed Science, 43, 685-701. Patterson, DT (1995b) Effects of environmental stress on weed/crop interactions. Weed Science, 43, 483-490.
Sida 351 - Wisconsin, pp 83-110. Patterson, DT, Flint, EP and Beyers, JL (1984) Effects of CO2 enrichment on competition between a C4 weed and a C3 crop. Weed Science 32, 101-105. Patterson, DT, Highsmith, MT...
Sida 51 - Cole, CV, J. Duxbury, J. Freney, O. Heinemeyer, K. Minami, A. Mosier, K. Paustian, N. Rosenberg, N. Sampson, D. Sauerbeck, and Q. Zhao, 1997: Global estimates of potential mitigation of greenhouse gas emissions by agriculture. Nutrient Cycling in Agroecosystems, 49, 221-228.
Sida 53 - Reicosky, DC and Lindstrom, MJ (1993) Fall tillage method: effect on short-term carbon dioxide flux from soil.
Sida 383 - Lomander, A. (1998) Temperature dependence of organic matter decomposition: a critical review using literature data analyzed with different models. Biology and Fertility of Soils 27 , 258-262.