Wetenschappelijke studie onderstreept voordelen meer CO2
Het Chinese duo Yujie Liu and Fulu Tao van het Institute of Geographical Sciences and Natural Resources Research van de Chinese Academy of Sciences hebben een baanbrekende studie gepubliceerd in het Journal of Applied Meteorology and Climatology 2012. Als de Chinezen hier echt van overtuigd raken is het hek van de dam…
Probabilistic change of wheat productivity and water use in China for global mean temperature changes of 1, 2, and 3°C
Fragment uit abstract: Elevated CO2 concentration generally compensates for the negative effects of warming temperatures on production. Moreover, positive effects of elevated CO2 concentration on grain yield increase with warming temperatures. The findings could be critical for climate change-driven agricultural production that ensures global food security.
Lees het hele abstract ….
Impacts of climate change on agriculture are a major concern worldwide. However, uncertainties of climate models and emission scenarios may hamper efforts to adapt to climate change. In this paper, a probabilistic approach is used to estimate the uncertainties and simulate impacts of global warming on wheat production and water use in the main wheat cultivation regions of China, with a global mean temperature (GMT) increase scale relative to 1961–1990 values. From output of 20 climate scenarios of the Intergovernmental Panel on Climate Change Data Distribution Centre, median values of projected changes in monthly mean climate variables for representative stations are adapted. These are used to drive the CERES (Crop Environment Resource Synthesis) – Wheat model to simulate wheat production and water use under baseline and global warming scenarios, with and without consideration of CO2 fertilization effects. Results show that because of temperature increase, projected wheat growing periods for GMT changes of 1, 2 and 3°C would shorten with an averaged median values 3.94%, 6.90%, and 9.67%, respectively. There is a high probability of decreasing (increasing) changes in yield and water use efficiency under higher temperature scenarios without (with) consideration of CO2 fertilization effects. Elevated CO2 concentration generally compensates for the negative effects of warming temperatures on production. Moreover, positive effects of elevated CO2 concentration on grain yield increase with warming temperatures. The findings could be critical for climate change-driven agricultural production that ensures global food security.
Say no more!
- Breaking news: CNN covert climategate
- Breaking news: Europees parlement zegt ja tegen schaliegas
- Breaking news: Robbert Dijkgraaf weg bij KNAW
- Breaking news: Klimaatbeleid niet controversieel
- Nieuw boek Roy Spencer: The Great Global Warming Blunder: “How Mother Nature Fooled the World’s Top Climate Scientists”