Your search keyword '"Ishigooka, Yasushi"' showing total 2 results

1. Dependency of parameter values of a crop model on the spatial scale of simulation.

Author

Iizumi, Toshichika, Tanaka, Yukiko, Sakurai, Gen, Ishigooka, Yasushi, and Yokozawa, Masayuki

Subjects

CROP yields, EARTH system science, SIMULATION methods & models, SOIL dynamics, ECOSYSTEMS, CULTIVARS

Abstract

Reliable regional-scale representation of crop growth and yields has been increasingly important in earth system modeling for the simulation of atmosphere-vegetation-soil interactions in managed ecosystems. While the parameter values in many crop models are location specific or cultivar specific, the validity of such values for regional simulation is in question. We present the scale dependency of likely parameter values that are related to the responses of growth rate and yield to temperature, using the paddy rice model applied to Japan as an example. For all regions, values of the two parameters that determine the degree of yield response to low temperature (the base temperature for calculating cooling degree days and the curvature factor of spikelet sterility caused by low temperature) appeared to change relative to the grid interval. Two additional parameters (the air temperature at which the developmental rate is half of the maximum rate at the optimum temperature and the value of developmental index at which point the crop becomes sensitive to the photoperiod) showed scale dependency in a limited region, whereas the remaining three parameters that determine the phenological characteristics of a rice cultivar and the technological level show no clear scale dependency. These results indicate the importance of using appropriate parameter values for the spatial scale at which a crop model operates. We recommend avoiding the use of location-specific or cultivar-specific parameter values for regional crop simulation, unless a rationale is presented suggesting these values are insensitive to spatial scale. [ABSTRACT FROM AUTHOR]

Published

2014

2. Historical changes in global yields: major cereal and legume crops from 1982 to 2006.

Author

Iizumi, Toshichika, Yokozawa, Masayuki, Sakurai, Gen, Travasso, Maria Isabel, Romanenkov, Vladimir, Oettli, Pascal, Newby, Terry, Ishigooka, Yasushi, and Furuya, Jun

Subjects

CROP yields, LEGUMES, GRAIN, FOOD security, AGRICULTURAL climatology, PRIMARY productivity (Biology), STANDARD deviations

Abstract

Aim Recent changes in crop yields have implications for future global food security, which are likely to be affected by climate change. We developed a spatially explicit global dataset of historical yields for maize, soybean, rice and wheat to explore the historical changes in mean, year-to-year variation and annual rate of change in yields for the period 1982-2006. Location This study was conducted at the global scale. Methods We modelled historical and spatial patterns of yields at a grid size of 1.125° by combining global agricultural datasets related to the crop calendar and harvested area in 2000, country yield statistics and satellite-derived net primary production. Modelled yields were compared with other global datasets of yields in 2000 ( M3-Crops and Map SPAM) and subnational yield statistics for 23 major crop-producing countries. Historical changes in modelled yields were then examined. Results Modelled yields explained 45-81% of the spatial variation of yields in 2000 from M3-Crops and Map SPAM, with root-mean-square errors of 0.5-1.8 t ha−1. Most correlation coefficients between modelled yield time series and subnational yield statistics for the period 1982-2006 in major crop-producing regions were greater than 0.8. Our analysis corroborated the incidence of reported yield stagnations and collapses and showed that low and mid latitudes in the Southern Hemisphere (0-40° S) experienced significantly increased year-to-year variation in maize, rice and wheat yields in 1994-2006 compared with that in 1982-93. Main conclusions Our analyses revealed increased instability of yields across a broad region of the Southern Hemisphere, where many developing countries are located. Such changes are likely to be related to recent yield stagnation and collapses. Although our understanding of the impacts of recent climate change, particularly the incidence of climate extremes, on crop yields remains limited, our dataset offers opportunities to close parts of this knowledge gap. [ABSTRACT FROM AUTHOR]

Published

2014