(*: as a corresponding author)
(110) Wakai A, Hijioka Y, Yokozawa M, Watanabe M, Sakura G. 2025. Historical precipitation and flood damage in Japan: functional data analysis and evaluation of models. PLOS ONE, 20(2): e0318335. https://doi.org/10.1371/journal.pone.0318335
(109) Kurosawa Y, Mori S, Ferriob JP, Nishizono T, Masyagina OV, Yamaji K, Koyama K, Haruma T, Doyama K, Hoshino H, Murayama H, Yagi M, Yokozawa M, Tomiyama S. 2025. Scaling of shoot and root respiration of woody and herbaceous plants. Proceedings of Royal Society B: Biological Sciences, 292: 20241910. https://doi.org/10.1098/rspb.2024.1910
(108) Jia R, Fang X, Yang Y, Yokozawa M, Ye Y. 2024. A 28 time-points cropland area change dataset in Northeast China from 1000 to 2020. Earth System Science Data, 16: 4971–4994. doi.org/10.5194/essd-16-4971-2024
(107) Nakagawa Y, Yokozawa M. 2023. A social system to disperse the irrigation start date based on the spatial public goods game. PLOS ONE, 18(5): e0286127. doi.org/10.1371/journal.pone.0286127
(106) Toda M, Doi K, Ishihara IM, Azuma AW, Yokozawa M. 2020. A Bayesian framework to evaluate parameter and predictive inference of a simple soil respiration model in a cool-temperate forest in western Japan. Ecological Modelling, 418: 108918. doi.org/10.1016/j.ecolmodel.2019.108918
(105) Yonemura S, Kaneda S, Kodama N, Sakurai G, Yokozawa M. 2019. Dynamic measurements of earthworm respiration. Journal of Agricultural Meteorology, 75: 103-110. doi: 10.2480/agrmet.D-18-00037
(104) Nakagawa Y, Yokozawa M, Ito A, Hara T. 2017. Effectively tuning plant growth models with different spatial complexity: a statistical perspective. Ecological Modelling, 361: 95-112. doi: 10.1016/j.ecolmodel.2017.07.018
(103) Sakurai G, Yamaji N, Mitani-Ueno N, Yokozawa M, Ono K, Ma J. 2017. A model of silicon dynamics in rice: an analysis of the investment efficiency of Si transporters. Frontiers in Plant Science, 8:1187. doi: 10.3389/fpls.2017.01187
(102) Nakagawa Y, Yokozawa M*, Hara T. 2016. Complex network analysis reveals novel essential properties of competition among individuals in an even-aged plant population. Ecological Complexity, 26: 95-116.
(101) Nakagawa Y, Yokozawa M, Hara T. 2016. Indirect facilitation induced by competition among plants. Nonlinear Theory and Its Applications, 7(2): 126-145. doi: 10.1587/nolta.7.126
(100) Kunimitsu Y, Kudo R, Iizumi T, Yokozawa M. 2016. Technological spillover in Japanese rice productivity under long-term climate change: Evidence from the spatial econometric model. Paddy and Water Environment, 14: 131-144. doi: 10.1007/s10333-015-0485-z
(99) Tubay JM, Suzuki K, Uehara T, Kakishima S, Ito H, Ishida A, Yoshida K, Mori S, Rabajante J, Morita S, Yokozawa M, Yoshimura J. 2015. Microhabitat locality allows multi-species coexistence in terrestrial plant communities. Scientific Reports, 5: 15376. doi: 10.1038/srep15376
(98) Okada M, Iizumi T, Sakurai G, Hanasaki N, Sakai T, Okamoto K, Yokozawa M.* 2015. Modeling irrigation-based climate change adaptation in agriculture: Model development and evaluation in Northeast China. Journal of Advances in Modeling Earth Systems, 7: 1409–1424. doi:10.1002/2014MS000402
(97) Sakurai G, Satake A, Yamaji N, Mitani-Ueno N, Yokozawa M, Feugier FG, Ma J. 2015. In silico simulation modeling revealed importance of the Casparian strips in efficient silicon uptake in rice roots. Plant and Cell Physiology, 56 (4): 631-639. doi: 10.1093/pcp/pcv017
(96) Sakurai G, Yonemura S, Kishimoto AW, Murayama S, Ohtsuka T, Yokozawa M.* 2015. Inversely estimating the vertical profile of the soil CO2 production rate in a deciduous broadleaf forest using a particle filtering method. PLoS ONE, 10(3): e0119001. doi:10.1371/journal.pone.0119001
(95) Nakagawa Y, Yokozawa M.*, Hara T. 2015. Competition among plants can lead to an increase in aggregation of smaller plants around larger ones. Ecological Modelling, 301: 41-53.
(94) Iizumi T, Tanaka Y, Sakurai G, Ishigooka Y, Yokozawa M. 2014. Dependency of parameter values of a crop model on the spatial scale of simulation. Journal of Advances in Modeling Earth Systems, 6: 527-540. doi: 10.1002/2014MS000311
(93) Kotera A, Nguyen KD, Sakamoto T, Iizumi T, Yokozawa M. 2014. A modeling approach for assessing rice crop cycle affected by flooding salinity intrusion and monsoon rains in the Mekong Delta, Vietnam. Paddy and Water Environment, 12 (3): 343-354. doi: 10.1007/s10333-013-0386-y
(92) Kunimitsu Y, Iizumi T, Yokozawa M. 2014. Is long-term climate change beneficial or harmful for rice total factor productivity in Japan: Evidence from a panel data analysis. Paddy and Water Environment, 12 (2): 213-225. doi: 10.1007/s10333-013-0368-0
(91) Iizumi T, Sakurai G, Yokozawa M. 2014. Contributions of historical changes in sowing date and climate to U.S. maize yield trend: An evaluation using large-area crop modeling and data assimilation. Journal of Agricultural Meteorology, 70: 73-90.
(90) Iizumi T, Luo J.J, Challinor A.J, Sakurai G, Yokozawa M, Sakuma H, Brown M.E, Yamagata T. 2014. Impacts of El Nino Southern Oscillation on the global yields of major crops. Nature Communications, doi: 10.1038/ncomms4712
(89) Sakurai G, Iizumi T, Nishimori M, Yokozawa M.* 2014. How much has the increase in atmospheric CO2 directly affected past soybean production? Scientific Reports, 4: 4978. doi:10.1038/srep04978
(88) Okada M, Iizumi T, Yokozawa M. 2014. Applicability of empirical solar radiation models to altered climate. Journal of Agricultural Meteorology, 70: 13-23.
(87) Iizumi T, Okada M, Yokozawa M. 2014. A meteorological forcing dataset for global crop modeling: development, evaluation and intercomparison. Journal of Geophysical Research - Atmospheres, 119: 363-384. doi: 10.1002/2013JD020130
(86) Iizumi T, Sakurai G, Yokozawa M. 2013. An ensemble approach to the representation of subgrid-scale heterogeneity of crop phenology and yield in coarse-resolution large-area crop models. Journal of Agricultural Meteorology, 69: 243-254.
(85) Iizumi T, Yokozawa M, Sakurai G, Travasso M.I, Romanernkov V, Oettli P, Newby T, Ishigooka Y, Furuya J. 2013. Historical changes in global yields: Major cereal and legume crops from 1982 to 2006. Global Ecology and Biogeography, 23: 346-357. doi: 10.1111/geb.12120
(84) Iizumi T, Sakuma H, Yokozawa M, Luo J.J, Challinor A.J, Brown M.E, Sakurai G, Yamagata T. 2013. Prediction of seasonal climate-induced variations in global food production. Nature Climate Change, 3: 904-908. doi:10.1038/nclimate1945
(83) Yonemura S, Yokozawa M, Sakurai G, Kishimoto-Mo WA, Lee N, Murayama S, Ishijima K, Shirato Y, Koizumi H. 2013. Vertical soil-air CO2 dynamics at the Takayama deciduous broadleaf forest site. Journal of Forest Research 18: 49-59.
(82) Yoshida R, Iizumi T, Nishimori T, Yokozawa M. 2012. Impacts of land-use changes on surface warming rates and rice yield in Shikoku, Western Japan. Geophysical Research Letters 39: L22401, doi:10.1029/2012GL053711
(81) Suzuki S, Yokozawa M, Inubushi K, Hara T, Kimura M, Tsuga S, Tako Y, Nakamura Y. 2012. Evaluation of CO2 exchange rates in a wetland ecosystem using the closed geosphere experiment facility. Journal of Hydrometeorology 13: 966-980.
(80) Masutomi Y, Iizumi T, Takahashi K, Yokozawa M. 2012. Estimation of the damage area due to tropical cyclones using fragility curves for paddy rice in Japan. Environmental Research Letters 7: 014020. doi:10.1088/1748-9326/7/1/014020
(79) Sakurai G, Jomura M, Yonemura S, Iizumi T, Shirato Y, Yokozawa M.* 2012. Inversely estimating temperature sensitivity of soil carbon decomposition by assimilating a turnover model and long-term field data. Soil Biology and Biochemistry 46: 191-199.
(78) Iizumi T, Nishimori M, Yokozawa M, Kotera A, Khang ND. 2011. Statistical downscaling with Bayesian inference: Estimating global solar radiation from reanalysis and limited observed data. International Journal of Climatology 32: 464-480. doi: 10.1002/joc.2281
(77) Kim W, Cho J, Komori D, Aoki M, Yokozawa M, Kanae S, Oki T. 2011. Tolerance of eddy covariance flux measurement. Hydrological Research Letters 5: 73-77.
(76) Okada M, Iizumi T, Hayashi Y, Yokozawa M.* 2011. Projecting climate change impacts both on rice quality and yield in Japan. Journal of Agricultural Meteorology 67: 283-293.
(75) Sakurai G, Iizumi T, Yokozawa M. 2011. Varying temporal and spatial effects of climate on maize and soybean affect yield prediction. Climate Research 49: 143-154, doi: 10.3354/cr01027
(74) Iizumi T, Nishimori M, Dairaku K, Adachi S, Yokozawa M. 2011. Evaluation and intercomparison of downscaled daily precipitation indices over Japan in present-day climate: strengths and weaknesses of dynamical and bias-correction-type statistical downscaling methods. Journal of Geophysical Research 116: D01111, doi: 10.1029/2010JD014513
(73) Okada M, Iizumi T, Hayashi Y, Yokozawa M. 2011. Modeling the multiple effects of temperature and radiation on rice quality. Environmental Research Letters 6: 034031. doi:10.1088/1748-9326/6/3/034031
(72) Iizumi T, Yokozawa M, Nishimori M. 2011. Probabilistic evaluation of climate change impacts on paddy rice productivity in Japan. Climatic Change, 107: 391-415. doi: 10.1007/s10584-010-9990-7
(71) Tao F, Zhang Z, Yokozawa M. 2011. Dangerous levels of climate change for agricultural production in China. Regional Environmental Change 11: 41-48. doi: 10.1007/s10113-010-0159-8
(70) Toda M, Yokozawa M, Emori S, Hara T. 2010. More asymmetric tree competition brings about more evapotranspiration and less runoff from the forest ecosystems: A simulation study. Ecological Modelling 221: 2887-2898.
(69) Iizumi T, Nishimori M, Yokozawa M. 2010. Diagnostics of climate model biases in summer temperature and warm-season insolation for the simulation of regional paddy rice yield in Japan. Journal of Applied Meteorology and Climatology 49: 574-591.
(68) Iizumi T, Ishida K, Yokozawa M, Nishimori M. 2010. Potential predictability of local paddy rice yield variation using a crop model with local areal information. Agricultural Information Research 19: 36-42.
(67) Khang ND, Kotera A, Iizumi T, Sakamoto T, Yokozawa M. 2010. Variations in water resources in the Vietnamese Mekong Delta in response to climate change and their impacts on rice production. Journal of Agricultural Meteorology 66: 11-21.
(66) Yokozawa M, Shirato Y, Sakamoto T, Yonemura S, Nakai M, Ohkura T. 2010. Use of the RothC model to estimate carbon sequestration potential of organic matter application in Japanese arable soils. Soil Science and Plant Nutrition 56: 168-176.
(65) Okada M, Iizumi T, Hayashi Y, Yokozawa M. 2009. A climatological analysis on recent decreasing trend of rice quality in Japan. Journal of Agricultural Meteorology 65: 327-337.
(64) Toda M, Yokozawa M, Sumida A, Watanabe T, Hara T. 2009. Foliage profiles of individual trees determine competition, self-thinning, biomass and NPP of a Cryptomeria japonica forest stand: A simulation study based on a stand-scale process-based forest model. Ecological Modelling 220: 2272-2280.
(63) Sakamoto T, Cao VP, Kotera A, Khang ND, Yokozawa M. 2009. Detection of yearly change in farming systems in the Vietnamese Mekong Delta from MODIS time-series Imagery. JARQ 43(3): 173-185.
(62) Sakamoto T, Cao VP, Kotera A, Khang ND, Yokozawa M. 2009. Analysis of rapid expansion of inland aquaculture and triple rice-cropping areas in a coastal area of the Vietnamese Mekong Delta using MODIS time-series imagery. Landscape and Urban Planning 92: 34-46.
(61) Iizumi T, Yokozawa M, Nishimori M. 2009. Development of impact functions on regional paddy rice yield in Japan for integrated assessment models.Journal of Agricultural Meteorology 65: 179-190.
(60) Tao F, Zhang Z, Liu J, Yokozawa M. 2009. Modelling the impacts of weather and climate variability on crop productivity over a large area: A new super-ensemble-based probabilistic projection. Agricultural and Forest Meteorology 149: 1266-1278.
(59) Yonemura S, Yokozawa M, Sgirato Y, Nishimura S, Nouchi I. 2009. Soil CO2 concentrations and their implications in conventional and no-tillage agricultural fields. Journal of Agricultural Meteorology 65: 141-149.
(58) Okada M, Iizumi T, Nishimori M, Yokozawa M. 2009. Mesh climate change data of Japan Ver.2 for climate change impact assessments under IPCC SRES A1B and A2. Journal of Agricultural Meteorology 65: 97-109.
(57) Tao F, Yokozawa M, Zhang Z. 2009. Modelling the impacts of weather and climate variability on crop productivity over a large area: A new process-based model development, optimization and uncertainty analysis. Agricultural and Forest Meteorology 149: 831-850.
(56) Tao F, Yokozawa M, Liu J, Zhang Z. 2009. Climate Change, Land Use Change, and China’s Food Security in the 21st Century: an Integrated Perspective. Climatic Change 93: 433-445.
(55) Iizumi T, Yokozawa M, Nishimori M. 2009. Parameter estimation and uncertainty analysis of a large-scale crop model for paddy rice: Application of a Bayesian approach. Agricultural and Forest Meteorology 149: 333-348.
(54) Tao F, Yokozawa M, Liu J, Zhang Z. 2008. Climate-crop yield relationships at province scale in China and the impacts of recent climate trend.Climate Research 38: 83-94.
(53) Kotera A, Sakamoto T, Khang ND, Yokozawa M. 2008. Regional consequences of seawater intrusion on rice productivity and land use in coastal area of the Mekong River Delta. JARQ 42(2): 267-274.
(52) Khang ND, Kotera A, Sakamoto T, Yokozawa M. 2008. Sensitivity of salinity intrusion to sea level rise and river flow change in Vietnamese Mekong Delta -Impacts on availability of irrigation water for rice cropping. Journal of Agricultural Meteorology 64: 167-176.
(51) Iizumi T, Yokozawa M, Hayashi Y, Kimura F. 2008. Climate change impact on rice insurance payouts in Japan. Journal of Applied Meteorology and Climatology 47: 2265-2278.
(50) Tao F, Yokozawa M, Hayashi Y, Zhang Z, Ishigooka Y. 2008. Land surface phenology dynamics and climate variation in the North East China Transect (NECT), 1982-2000. International Journal of Remote Sensing 29(19): 5461-5478.
(49) Iizumi T, Nishimori M, Yokozawa M. 2008. Combined Equations for Estimating Global Solar Radiation : Projection of Radiation Field over Japan under Global Warming Condition by Statistical Downscaling. Journal of Agricultural Meteorology 64: 9-23.
(48) Tao F, Hayashi Y, Zhang Z, Sakamoto T, Yokozawa M. 2008. Global warming, rice production, and water use in China: Developing a probabilistic assessment. Agricultural and Forest Meteorology 148: 94-110.
(47) Kotera A, Sakamoto T, Yokozawa M. 2007. Determining the spatial pattern of rice cropping schedules using time-series satellite imagery of the Red River Delta, Vietnam. International Journal of Geoinformatics 3(4): 1-8.
(46) Sakamoto T, Khang ND, Kotera A, Ohno H, Ishitsuka N, Yokozawa M. 2007. Detecting temporal changes in the extent of annual flooding within the Cambodia and the Vietnamese Mekong Delta from MODIS time-series imagery. Remote Sensing of Environment 109: 295-313.
(45) Toda M, Yokozawa M, Sumida A, Watanabe T, Hara T. 2007. Simulating the carbon balance of a temperate larch forest under various meteorological conditions. Carbon Balance and Management 2:6. doi:10.1186/1750-0680-2-6
(44) Yao F, Xu Y, Lin E, Yokozawa M, Zhang J. 2007. Assessing the impacts of climate change on early rice yields in the main rice areas of China.Climatic Change 80: 395-409.
(43) Iizumi T, Hori ME, Yokozawa M, Nakagawa H, Hayashi Y, Kimura F. 2006. Impact of global warming on rice production in Japan based on five coupled atmosphere-ocean GCMs. SOLA 2: 156-159.
(42) Tao F, Yokozawa M, Xu Y, Hayashi Y, Zhang Z. 2006. Climate changes and trends in phenology and yield of field crops in China, 1981-2000.Agricultural and Forest Meteorology 138: 82-92.
(41) Suh S, Chun Y, Chae N, Kim J, Lim J, Yokozawa M, Lee M, Lee J. 2006. A chamber system with automatic opening and closing for continuously measuring soil respiration based on an open-flow dynamic method. Ecological Research 21: 405-414.
(40) Shirato Y, Yokozawa M. 2006. Acid hydrolysis to partition plant material into decomposable and resistant fraction for use in the Rothamsted carbon model. Soil Biology and Biochemistry 38: 812-816.
(39) Yamamura K, Yokozawa M, Nishimori M, Ueda Y, Yokosuka T. 2006. How to analyze long-term insect population dynamics under climate change: 50-year data of three insect pests in paddy fields. Population Ecology 48: 31-48. doi: 10.1007/s10144-005-0239-7
(38) Sakamoto T, Nguyen NV, Ohno H, Ishitsuka N, Yokozawa M. 2006. Spatio-temporal distribution of rice phenology and cropping systems in the Mekong Delta with special reference to the seasonal water flow of the Mekong and Bassac rivers. Remote Sensing of Environment 100: 1-16.
(37) Yokozawa M, Tao F, Sakamoto T. 2005. Space-time variation of climate condition for major cereal cultivation areas: current status and future projection. Chinese Journal of Agricultural Meteorology 26: 1-6.
(36) Tao F, Yokozawa M. 2005. Future agricultural water resources and agricultural production in China - Interactions between climate change and soil degradation. Journal of Agricultural Meteorology 60: 1169-1174.
(35) Shirato Y, Yokozawa M. 2005. Applying the Rothamsted Carbon Model for long-term experiments on Japanese paddy soils and modifying it with simple tuning of decomposition rate. Soil Science and Plant Nutrition 51: 405-415.
(34) Sakamoto T, Yokozawa M, Toritani H, Shibayama M, Ishizuka N, Ohno H. 2005. A crop phenology detection method using time-series MODIS data.Remote Sensing of Environment 96: 366-374.
(33) Tao F, Yokozawa M, Zhang Z, Xu Y, Hayashi Y. 2005. Remote sensing of crop production in China by production efficiency models: models comparisons, estimates and uncertainties. Ecological Modelling 183: 385-396.
(32) Tao F, Yokozawa M. 2005. Risk Analyses of Rice Yield to Seasonal Climate Variability in China. Journal of Agricultural Meteorology 60: 885-887.
(31) Tao F, Yokozawa M, Hayashi Y, Lin E. 2005. A perspective of water resources in China: Ineractions between climate and soil degradation. Climatic Change 68: 169-197.
(30) Shirato Y, Paisancharoen K, Sangtong P, Nakviro C, Yokozawa M, Matsumoto N. 2005. Testing the Rothamsted carbon model against long-term experiments on Thai upland soils. European Journal of Soil Science 56: 179-188. doi: 10.1111/j1365-2389.2004.00659.x
(29) Tao F, Yokozawa M, Zhang Z, Hayashi Y, Grassl H, Fu H. 2004. Climatological and agricultural production variability in China in association with East Asia summer monsoon and El Nino southern oscillation. Climate Research 28: 23-30.
(28) Yokozawa M, Tao F, Sakamoto T. 2004. Risk analysis of cropland suitability in China under climatic variability and change. Crop, Environment and Bioinformatics 1: 264-271.
(27) Watanabe T, Yokozawa M, Emori S, Takata K, Sumida A, Hara T. 2004. Developing a multilayered integrated numerical model of surface physics-growing plants interaction, MINoSGI. Global Change Biology 10: 963-982.
(26) Tao F, Yokozawa M, Hayashi Y, Lin, E. 2003. Changes in agricultural water demands and soil moisture in China over the last half-century and their effects on agricultural production. Agricultural and Forest Meteorology 118: 251-261.
(25) Ranatunge E, Malmgren BA, Hayashi Y, Mikami T, Morishima W, Yokozawa M, Nishimori M. 2003. Changes in the southwest monsoon mean daily rainfall intensity in Sri Lanka: relationship to the El Nino-Southern Oscillation. Palaeogeography, Palaeoclimatology, Palaeoecology 197: 1-14.
(24) Tao F, Yokozawa M, Hayashi Y, Lin, E. 2003. Terrestrial water cycle and the impact of climate change. Ambio 32: 295-301.
(23) Yokozawa M, Goto S, Hayashi Y, Seino H. 2003. Mesh climate data for evaluating climate change impacts in Japan under gradually increasing atmospheric CO2 concentration. Journal of Agricultural Meteorology 59: 117-130.
(22) Tao F, Yokozawa M, Hayashi Y, Lin, E. 2003. Future climate change, the agricultural water cycle, and agricultural production in China. Agriculture, Ecosystems and Environment 95: 203-215.
(21) Kamara, S, Kuruppuarachchi T, Ranatunge ER, Hayashi Y, Yokozawa M, Nishimori M, Mikami, T. 2002. Multivariate statistical analysis of the seasonal rainfall regimes of the Guinea-Fouta Djallon Mountains of West Africa. Journal of Agricultural Meteorology 58: 171-183.
(20) Sekikawa S, Koizumi H, Kibe T, Yokozawa M, Nakano T, Mariko S. 2002. Diurnal and seasonal changes in soil respiration in a Japanese grapevine orchard and their dependence on temperature and rainfall. Journal of the Japanese Agricultural Systems Society 18: 44-54.
(19) Yamamura K, Yokozawa M. 2002. Prediction of a geographical shift in the prevalence of rice stripe virus disease transmitted by the small brown planthopper, Laodelphax striatellus (Fallen) (Hemiptera: Delphacidae), under global warming. Applied Entomology and Zoology 37: 181-190.
(18) Nakadai T, Yokozawa M, Ikeda, H, Koizumi, H. 2002. Diurnal change of carbon dioxide flux from bare doil in agricultural field in Japan. Applied Soil Ecology 19: 161-171.
(17) Li B, Shibuya T, Yogo Y, Hara T, Yokozawa M. 2001. Interclonal differences, plasticity and trade-offs of life history traits of Cyperus esculentus in relation to water availability. Plant Species Biology 16: 193-207.
(16) Kuruppuarachchi T, Ranatunge ER, Hayashi Y, Yokozawa M, Nishimori M. 2001. Seasonal structure of monsoon rainfall organization in Bangladesh as revealed from principal component analysis. Newsletter of Climate Impacts and Application 19: 39-46.
(15) Yonemura S, Miyata A, Yokozawa M. 2000. Concentration of carbon monoxide and methane at two heights above a grass field and their deposition onto the field. Atmospheric Environment 34: 5007-5014.
(14) Mariko S, Nishimura N, Mo W, Matsui Y, Yokozawa M, Sekikawa S, Koizumi H. 2000. Measurement of CO2 fluxes from soil and snow surfaces with open dynamic chamber technique. Environmental Science 13: 69-74.
(13) Yonemura S, Yokozawa M. 2000. A process-based model for the global estimation of CH4- and CO-uptake strength by soils. World Resource Review 12: 149-170.
(12) Yonemura S, Yokozawa M, Kawashima S, Tsuruta H. 2000. Model analysis to the influences of soil diffusivity on CO and H2 uptake by soil. TellusB52: 919-933.
(11) Yokozawa M. 1999. Size hierarchy and stability in competitive plant populations. Bulletin of Mathematical Biology 61: 949-961.
(10) Yokozawa M, Kubota Y, Hara T. 1999. Effects of competition mode on the spatial pattern dynamics of wave regeneration in subalpine tree stands.Ecological Modelling 118: 73-86.
(09) Yokozawa M, Hara T. 1999. Global vs. local coupling models and theoretical stability analysis of size-structure dynamics in plant populations.Ecological Modelling 118: 61-72.
(08) Yokozawa M, Kubota Y, Hara T. 1998. Effects of competition mode on spatial pattern dynamics in plant communities. Ecological Modelling 106: 1-16.
(07) Hayashi Y, Yokozawa M, Yamakawa S, Toritani H. 1997. A weather generator for the prediction of crop yields under changeable climates. Journal of Agricultural Meteorology 52: 745-748.
(06) Yokozawa M, Kubota Y, Hara T. 1996. Crown architecture and species coexistence in plant communities. Annals of Botany 78: 437-447.
(05) Yokozawa M, Hara T. 1995. Foliage profile, size structure and stem diameter-plant height relationship in crowded plant populations. Annals of Botany 76: 271-285.
(04) Hara T, Yokozawa M. 1994. Effects of physiological and environmental variations on size-structure dynamics in plant populations. Annals of Botany73: 39-51.
(03) Yokozawa M, Hara T. 1993. A canopy photosynthesis model for the dynamics of size structure and the competition mode in plant populations.Journal of Agricultural Meteorology 48: 827-830.
(02) Yokozawa M, Hara T. 1992. A canopy photosynthesis model for the dynamics of size structure and self-thinning in plant populations. Annals of Botany 70: 305-316.
(01) Nishimori H, Okamoto K, Yokozawa M. 1987. Competition between the Neel and the effective singlet states in spin-1/2 alternating Heisenberg-Ising antiferromagnet in one dimension. Journal of the Physical Society of Japan 56: 4126-4133.
(18) 中河嘉明, 横沢正幸* 2015. 植物個体間競争過程のモデリングと北方林への適用. 低温科学 73: 93-104. (with English summary)
(17) 戸田 求, 横沢正幸, 原登志彦 2014. 環境変動と北方林生態系応答. 気象研究ノート 230: 159-167.
(16) 國光洋二, 工藤亮治, 飯泉仁之直, 横沢正幸 2014. 稲作の総合生産性に対する気候変動と空間的従属性の影響 - 空間計量経済モデルによる分析 -. 地域学研究 44: 305-325. (with English summary)
(15) 飯泉仁之直, 西森基貴, 石郷岡康史, 横沢正幸 2010. 統計的ダウンスケーリングによる気候変化シナリオ作成入門. 農業気象 66: 131-143.
(14) 横沢正幸, 飯泉仁之直, 岡田将誌 2009. 気候変化がわが国におけるコメ収量変動に及ぼす影響の広域評価. 地球環境 14: 199-206.
(13) 高田良三, 山崎信, 杉浦俊彦, 横沢正幸, 大塚誠, 村上斉 2008. 地球温暖化が肥育豚の飼養成績に及ぼす影響-「地球温暖化メッシュデータ(日本)」によるその将来予測-. 日本畜産学会報 79: 59-65. (with English summary)
(12) 山崎信, 村上斉, 中島一喜, 阿部啓之, 杉浦俊彦, 横沢正幸, 栗原光規 2006. 平均気温の変動から推定したわが国の鶏肉生産に対する地球温暖化の影響. 日本畜産学会報 77: 231-235. (with English summary)
(11) 杉浦俊彦, 横沢正幸 2004. 年平均気温の変動から推定したリンゴおよびウンシュウミカンの栽培環境に対する地球温暖化の影響. 園芸学会雑誌 73: 72-78. (with English summary)
(10) 林陽生, 石郷岡康史, 横沢正幸, 鳥谷均, 後藤慎吉 2001. 温暖化が日本の水稲栽培の潜在的特性に及ぼすインパクト. 地球環境 6: 141-148.
(09) 西森基貴, 横沢正幸 2001. 気候変動・異常気象による日本の水稲単収変動の地域的変化. 地球環境 6: 149-158.
(08) 横沢正幸, Tao F., 林陽生, Lin E. 2001. 中国における農耕地の土壌水分環境の変動と農業生産への影響. 地球環境 6: 159-167.
(07) 岡本勝男, 横沢正幸 1999. 気候変動シナリオからみたアジアの農業生産力変動. システム農学 15: 104-110. (with English summary)
(06) 米村正一郎, 川島茂人, 大嶋秀雄, 横沢正幸 1999. 半導体アンモニアセンサーの較正と野外での検証. 大気環境学会誌 34: 321-330. (with English summary)
(05) 鳥谷均, 米村正一郎, 横沢正幸 1999. MRI-CGCM気候変化シナリオから予測した日本における21世紀の水稲の潜在収量. システム農学 15: 8-16. (with English summary)
(04) 佐藤洋, 横沢正幸, 田中啓一, 坂井英章 1999. CRを用いたライナックグラフィ用カセッテシステムの検討 - ヘビイメタルシートの適用 -. 日本放射線技術学会雑誌 55: 198-204. (with English summary)
(03) 岡本勝男, 山川修治, 横沢正幸, 川島博之 1998. 衛星リモートセンシング・データを用いた穀物生産量推定のための新手法. システム農学 14: 6-12. (with English summary)
(02) 岡本勝男, 川島博之, 横沢正幸, 袴田共之 1997. 地球環境変化と農業生産. 地域学研究 28: 29-44. (with English summary)
(01) 佐藤洋, 横沢正幸, 西沢睦夫 1997. CRを用いたライナックグラフィの金属増感板の検討. 日本放射線技術学会雑誌 53: 1381-1388. (with English summary)
(13) Nakagawa Y. Yokozawa M. 2025. Diffusion of Flood Adaptation Measures in Japan: An Agent-Based Model for Assessing Individual Behaviors and Policy Communication Effectiveness. In: Climate Change Impacts and Adaptation Strategies in Japan. (eds., Mimura N. Takewaka S.) https://doi.org/10.1007/978-981-96-2436-2_15. Springer.
(12) 横沢正幸 2017. 地球温暖化など気候変化の諸影響「気候変動の事典」(山川修治・常盤勝美・渡来靖 編), 朝倉書店
(11) Iizumi T. Yokozawa M. Sakurai G. Sakuma H. Luo J.J. Challinor A.J. Yamagata T. 2016. Characterizing the reliability of global crop prediction based on seasonal climate forecasts. In: Indo-Pacific Climate Variability and Predictability. (eds., Behera K. Yamagata T.) p281-304, World Scientific Publishing.
(10) 横沢正幸・櫻井 玄 2014. 土壌における炭素動態とモデリング 「地球環境変動の生態学」(シリーズ現代の生態学 第2巻,日本生態学会 編), p105-128, 共立出版
(09) 横沢正幸 2010. 将来の食料生産量予測、農業資源の持続的利用 「からだと温度の事典」(彼末一之 監修) p317-322, 朝倉書店
(08) 横沢正幸 2006. 植物群集における空間分布パターン 「プラントミメティックス ~植物に学ぶ~」(甲斐昌一, 森川弘道 監修)p58-67, エヌ・ティー・エス
(07) Yokozawa M. 2003. The Mode of Competition and Spatial Pattern Formation in Plant Communities. In: Morphogenesis and Pattern Formation in Biological Systems. (eds., Sekimura, T., Noji, S., Ueno, N. and Maini, P.K.) p237-246, Springer-Verlag
(06) 原 登志彦・横沢正幸 2003. 植物樹冠の形態と種間の共存パターン 「生物の形の多様性と進化」(関村利朗, 野地澄晴, 森田利仁 編) p265-272, 裳華房
(05) 横沢正幸 2003. 植物群集における個体間相互作用様式と空間パターン形成 「生物の形の多様性と進化」(関村利朗, 野地澄晴, 森田利仁 編) p255-264, 裳華房
(04) 横沢正幸 2003. 農林業への影響:水稲以外の作物栽培への影響 「地球温暖化と日本 第3次報告ー自然・人への影響予測」(原沢英夫, 西岡秀三 編) p148-152, 古今書院
(03) Yokozawa M, Mori N. 2002. Global Environmental Change and Forest Resources. In: The Management of Natural Resources in Satisfying the Need for Human Life. (ed., Ishii, R. In: Encyclopedia of Life Support Systems, EOLSS, Developed under the Auspices of the UNESCO, Eolss Publishers, Oxford ,UK), [http://www.eolss.net]
(02) 横沢正幸 2001. 農林水産業への影響:水稲以外の作物への影響 「地球温暖化の日本への影響2000」(環境省地球温暖化問題検討委員会 編) p157-161, 環境省
(01) 鞠子 茂・横沢正幸 2001. 大気-植生-土壌系におけるCO2交換 「大気環境と植物」(野内 勇 編著) p284-323, 養賢堂
(11) Haraguchi A, Yokozawa M, Toda M, Hara T. 2009. Effects of soil nutrients on competition and morphological plasticity in an Impatiens balsamina population. Icfai University Journal of Environmental Sciences 3(3): 7-23.
(10) Suzuki S, Inubushi K, Yokozawa M, Hara T, Tsuga S, Endo M, Nitta K. 2007. Research on carbon dynamics in a wetland ecosystem dominated byPhragmites australis using the closed geosphere experiment facility. Proceedings of the International Symposium on Application of a Closed Experiment System to Modeling of 14C Transfer in the Environment, Tako Y, Tani T, Arai R, Nozoe S, Nakamura Y. (eds.), Institute for Environmental Scieces, Aomori, p64-71.
(09) Shirato Y, Yokozawa M. 2004. Estimating carbon sequestration in Japanese arable soild using the Rothamsted carbon model. Material Circulation through Agro-Ecosystems in East Asia and Assessment of its Environmental Impacts., Hayashi Y. (ed.), National Institute for Agro-Environmental Sciences, NIAES Series 5, Tsukuba, p69-75.
(08) Yokozawa M, Okamoto K, Kawashima H. 2001. Spatio-temporal variations of cereal crop cultivation condition due to climate change. RSPS 2001: Geomatics, Earth Observation and the Information, Remote Sensing and Photogrammetry Society, Nottingham, p459-466.
(07) Hara T, Watanabe T, Yokozawa M, Emori S, Takata K, Sumida A. 2001. A multi-layered integrated numerical model of surface physics - growing plants interaction, MINoSGI. Present and Future of Modeling Global Environmental Change: Toward Integrated Modeling. Matsuno T. and Kida H. (eds.), TERRAPUB, Tokyo, p173-185.
(06) Yonemura S, Yokozawa M, Kawashima S, Tsuruta H. 2000. Trace gas absorption by soil: Simulation study on diffusion processes of trace gases, CO, H2 and CH4 in soil. Computational Methods for Flow and Transport in Porous Media. Crolet J.M. (ed.) Kluwer Academic Publishers, Dordrecht, p371-381.
(05) Yokozawa M. 1999. Hierarchical structures in competitive plant communities. Ecosystems and Sustainable Development II Uso JL, Brebbia CA, Power H. (eds.), Computational Mechanics Publications, Southampton, p25-34.
(04) Kawashima H, Okamoto K, Yokozawa M, Halablab MA. 1998. System analysis on the food supply and demand in China in the 21st Century.Ecosystems and Sustainable Development, Uso JL, Brebbia CA, Power H. (eds.), Computational Mechanics Publications, Southampton, p13-24.
(03) Toritani H, Yokozawa M, Yonemura S. 1998. The characteristics of time changes on rice production predicted by the MRI's CGCM. Ecosystems and Sustainable Development., Uso, J.L., Brebbia, C.A., Power, H. (eds.), Computational Mechanics Publications, Southampton, p31-40.
(02) Yokozawa M, Kubota Y, Hara T. 1998. Relationships between competitive asymmetry of individuals and local size distributions in plant communities.Ecosystems and Sustainable Development., Uso, J.L., Brebbia, C.A., Power, H. (eds.), Computational Mechanics Publications, Southampton, UK, p467-476.
(01) Hara T, van Rijnberk H, During H, Yokozawa M, Kikuzawa K. 1990. Competition process and spatial pattern formation in a Betula ermanii population.Spatial Processes in plant communities. Krahulec F, Agnew A.D.Q., Agnew S., Willems J.H. (eds.), SPB Academic Publishing, The Hague, p127-143.
(08) 中河嘉明・横沢正幸・原 登志彦 2010. 植物個体群における競争ネットワークの構造解析 京都大学数理解析研究所考究録 1704: 68-75.
(07) 横沢正幸 2009. 気候変化と農業生産 週刊農林 2058: 16-17, 2059: 4-5
(06) 横沢正幸 2008. 気候変動により食料供給はどう変わるのか? 土木學會誌 93: 24-25.
(05) 横沢正幸, 陶福禄, 飯泉仁之直 2007. 気候変動が農業へおよぼす影響-日本と中国への影響を中心として-. 国際農林業協力 30: 10-20.
(04) 横沢正幸, 米村正一郎, 白戸康人 2005. 陸上生態系における炭素動態のモデリング -土壌内の炭素の分配・流れを中心として- 日本生態学会誌 55: 167-171.
(03) 横沢正幸 2003. 地球温暖化が農林生態系に及ぼす影響. 3.大気CO2濃度,温度および水分環境の変化と作物の応答. 日本土壌肥料科学雑誌 74: 229-236.
(02) 横沢正幸, 岡本勝男 2001. 気候変化とアジアの農耕地の気候資源量. 関東の農業気象 27: 7-10.
(01) 横沢正幸, 鳥谷 均 1997. 気象庁気象研究所大気・海洋大循環モデル(MRI-CGCM)による二酸化炭素濃度漸増時の日本付近局地気候シナリオ. 関東の農業気象 23: 7-8.
In review or preparation
Evaluating the impacts of both climate and land use changes on crop productivity and the market price.
Abandonment of farmland promoted by pest insect propagation resulting from global warming.
Implementing the down-regulation effect of carbon dioxide fertilization into crop growth model.
Optimizing productivity and mitigating GHG emission in agricultural field using data-model fusion approach.
Gap-filling technique based on particle filter with Markov Chain Monte Carlo: an application to analyze NEE time series in a cool temperate forest.
Theses
Theoretical study on size-structure dynamics, competition and coexistence in plant communities. Doctor thesis, The University of Tokyo, 1996. (UT Repository)
A numerical study of one-dimensional Heisenberg model with bond alternation. Master thesis, Tokyo Institute of Technology, 1987.
As of Sep. 2024