scholarly journals Effect of Carbon Dioxide Concentration on Growth and Dry Matter Production of Crop plants : VI. Effect of oxygen concentration on the carbon dioxide-dry matter production relationship in some C3- and C4- crop species

1979 ◽  
Vol 48 (1) ◽  
pp. 58-65 ◽  
Author(s):  
Katsu IMAI ◽  
Yoshio MURATA
Keyword(s):  
Carbon Dioxide ◽  
Oxygen Concentration ◽  
Dry Matter ◽  
Carbon Dioxide Concentration ◽  
Crop Plants ◽  
Dry Matter Production ◽  
Crop Species ◽  
Matter Production ◽  
Effect Of Oxygen

scholarly journals Modelling growth and nitrogen balance of barley under ambient and future conditions

1996 ◽  
Vol 5 (3) ◽  
pp. 299-310 ◽  
Author(s):  
Jouko Kleemola ◽  
Tuomo Karvonen
Keyword(s):  
Soil Temperature ◽  
Dry Matter ◽  
Spring Barley ◽  
Dry Weight ◽  
N Fertilization ◽  
Snow Accumulation ◽  
Dry Matter Production ◽  
Hordeum Vulgare L ◽  
Crop Species ◽  
Matter Production

According to current scenarios, atmospheric CO2 -concentration ([CO2]) and average air temperature will rise in the future. The predicted longer growing season in Finland would imply that more productive cultivars and even new crop species could be grown. Moreover, higher [CO2] is also likely to increase dry matter production of crops. This study analyzed the growth of spring barley (Hordeum vulgare L.) under ambient and suggested future conditions, and its response to N fertilization. Model simulations of soil temperature and of snow accumulation and melting were also studied. The calibration and validation results showed that the model performed well in simulating snow dynamics, soil temperature, the growth of barley, and the response of crop growth to N fertilization under present conditions. According to the simulation runs, if a cultivar was adapted to the length of the growing period, the increase in dry matter production was 23% in a low estimate scenario of climate change, and 56% in a high estimate scenario under a high level of nitrogen fertilization. The simulation study showed that the shoot dry weight increased by 43%, on average, under high N fertilization (150-200 kg N/ha), but by less (20%) under a low level of N (25-50 kg N/ha) when the conditions under a central scenario for the year 2050 were compared with the present ones.

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