業績リスト 解説付きのリストはこちら
Watanabe KO, Kohzuma K, Kurokawa H, Hikosaka K (2025) Evaluating fungal pathogen resistance across the leaf economics spectrum using the generalist fungus Sclerotinia sclerotiorum. Scientific Reports, 15:21489. [Springer]
Hikosaka K, Onoda Y, Kitajima K (2025) Leaf economics of deciduous and evergreen plants: how do they exhibit trait optimization under resource variations and environmental constraints. Oecologia, 207:99. [Springer]
Fridley J, Griffin-Nolan RJ, Bensaddek L, Decocq G, Hikosaka K, Kichey T, LeVonne J, Mishio M (2025) Joining the locals: plant invaders shift leaf defenses to match native neighbors. Ecology. 106:e70129. [Wiley]
Orishikida Y, Iwachido Y, Yoshitake Y, Goto A, Makishima D, Hikosaka K, Sasaki T (2025) Changes in subalpine moorland plant community diversity and trait composition in response to woody plant encroachment. Plant Ecology, 226:553–561. [Springer]
Chen S, Kosugi Y, Jiao L. Sakabe A, Nakaji T, Noda H, Hikosaka K, Nasahara KN (2025) The influence of winter leaf reddening on the vegetation indices and canopy light-use efficiency in a Japanese cypress canopy. Agricultural Forest Meteorology, 363:110427. [ScienceDirect]
Mohamed E, Tomimatsu H, Hikosaka K (2025) The relationships between photochemical reflectance index (PRI) and photosynthetic status in radish species differing in salinity tolerance. Journal of Plant Research, 138:231–241. [Springer]
Oguchi R, Nagano S, Pfleger A, Ozaki H, Hikosaka K, Osmond B, Chow WS (2025) An intraspecific negative correlation between the repair capacity of photoinhibition of cold acclimated plants and the habitat temperature. Plant, Cell and Environment, 48: 2298-2311. [Wiley]
Tsujii M, Kobayashi A, Kano A, Kera K, Kojima S, Hikosaka K, Oguchi R, Sonoike K, Azai C, Inagaki T, Ishimaru Y, Uozumi N (2025) Na+-driven pH regulation by Na+/H+ antiporters promote photosynthetic efficiency in cyanobacteria. Plant Physiology, 197: kiae562. [Oxford]
Ogawa T, Tamaki M, Usui T, Hikosaka K (2024) Hyperspectral image extraction to evaluate the photosynthetic and stress status of plants, using a photochemical reflectance index (PRI). Scientia Horticulturae, 336: 113349.[ScienceDirect] [東北大学の研究紹介] [生命科学研究科の研究紹介] [プレスリリース]
Nakamura Y, Tsujimoto K, Ogawa T, Noda HM, Hikosaka K (2024) Correction of photochemical reflectance index (PRI) by optical indices to predict non-photochemical quenching (NPQ) across various species. Remote sensing of Environment, 305: 114062. [ScienceDirect]
Mishio M, Sudo E, Ozaki H, Oguchi R, Fujimoto R, Fujii N, Hikosaka K (2024) Heterotic growth is enhanced more under elevated atmospheric CO2 conditions. American Journal of Botany, 111: e16317. [Wiley]
Griffin-Nolan RJ, Bensaddek L, Decocq G, Hikosaka K, Kichey T, LeVonne J, Mishio M, Fridley J (2024) Away-range shifts in leaf function of a global invader: a case of resource reallocation? Biological Invasions, 26: 1489–1503. [Springer]
Yamakawa M, Onoda Y, Kurokawa H, Oguro M, Nakashizuka T, Hikosaka K (2023) Competitive asymmetry in a forest composed of a shade-tolerant species depends on gap formation. Forest Ecology and Management, 549: 121442. [ScienceDirect]
Imasu R, Matsunaga T, Nakajima M, Yoshida Y, Shiomi K, Morino I, Saitoh N, Niwa Y, Someya Y, Oishi Y, Hashimoto M, Noda H, Hikosaka K, Uchino O, Maksyutov S, Takagi H, Ishida H, Nakajima TY, Nakajima T, Shi C (2023) Greenhouse gases observing satellite 2 (GOSAT-2): Mission overview. Progress in Earth and Planetary Science, 10: 33. [Springer]
Kiyono T, Noda HM, Kumagai T, Oshio H, Yoshida Y, Matsunaga T, Hikosaka K (2023) Regional-scale wilting point estimation using satellite SIF, radiative-transfer inversion, and soil-vegetation-atmosphere transfer simulation: A grassland study. Journal of Geophysical Research: Biogeosciences, 128: e2022JG007074. [AGU]
Yoshida N, Morinaga SI, Wakamiya T, Ishii Y, Kubota S, Hikosaka K (2023) Does selection occur at the intermediate zone of two insufficiently isolated populations? A whole-genome analysis along an altitudinal gradient. Journal of Plant Research 136: 183-199. [Springer]
Makishima D, Ishii N, Sutou R, Goto A, Kawai Y, Taniguchi H, Uchida K, Shimazaki M, Nakashizuka T, Suyama Y, Hikosaka K, Sasaki T (2022) Predicting diversity changes in subalpine moorland ecosystems based on geometry of species distributions and realistic area loss. Journal of Vegetation Science, 33: e13150. [Wiley]
Sasaki T, Ishii IN, Makishima D, Sutou R, Goto A, Kawai Y, Taniguchi H, Okano K, Matsuo A, Locher A, Cesarz S, Suyama Y, Hikosaka K, Eisenhauer N (2022) Plant and microbial community composition jointly determine moorland multifunctionality. Journal of Ecology, 110: 2507–2521. [Wiley]
Oguchi R, Hanada K, Shimizu M, Mishio M, Ozaki H, Hikosaka K (2022) Enhanced growth rate under elevated CO2 conditions was observed for transgenic lines of genes identified by intraspecific variation analyses in Arabidopsis thaliana. Plant Molecular Biology, 110: 333–345. [Springer-Nature] [研究紹介] [プレスリリース]
Wang QW, Liu C, Tobson TM, Hikosaka K, Kurokawa H (2021) Leaf density and chemical composition explain variation in leaf mass area with spectral composition among 11 widespread forbs in a common garden. Physiologia Plantarum, 173:698–708. [Wiley]
Kohzuma K, Tamaki M, Hikosaka K (2021) Corrected photochemical reflectance index (PRI) is an effective tool for detecting environmental stresses in agricultural crops under light conditions. Journal of Plant Research, 134:683–694. [Springer]
Hikosaka K, Tsujimoto K (2021) Linking remote sensing parameters to CO2 assimilation rates at a leaf scale. Journal of Plant Research, 134:695–711. [Springer]
Tsujimoto K, Hikosaka K (2021) Estimating leaf photosynthesis of C3 plants grown under different environments from pigment index, photochemical reflectance index, and chlorophyll fluorescence. Photosynthesis Research, 148: 33–46. [Springer]
Hikosaka K (2021) Photosynthesis, chlorophyll fluorescence and photochemical reflectance index in photoinhibited leaves. Functional Plant Biology, 48:815–826. [CSIRO]
Makishima D, Sutou R, Goto A, Kawai Y, Ishii N, Taniguchi H, Uchida K, Shimazaki M, Nakashizuka T, Suyama Y, Hikosaka K, Sasaki T (2021) Potential extinction debt due to habitat loss and fragmentation in subalpine moorland ecosystems. Plant Ecology 222: 445-457. [Springer]
Hikosaka K§, Kurokawa H§, Arai T, Takayanagi S, Tanaka HO, Nagano S, Nakashizuka T (2021) Intraspecific variations in leaf traits, productivity, and resource use efficiencies in the dominant species of subalpine evergreen coniferous and deciduous broad-leaved forests along the altitudinal gradient. Journal of Ecology 109: 1804-1818. [Wiley] §Equally contributed authors.
Postma J, Hecht V, Hikosaka K, Nord E, Pons TL, Poorter H (2021) Dividing the pie: a quantitative review on plant density responses. Plant, Cell and Environment. 44: 1072-1094 [Wiley]
Liu Z, Hikosaka K, Li F, Zhu L, Jin G (2021) Plant size, environmental factors and functional traits jointly shape the stem radius growth rate in an evergreen coniferous species across ontogenetic stages. Journal of Plant Ecology 14: 257–269. [Oxford]
Machino S, Nagano S, Hikosaka K (2021) The latitudinal and altitudinal variations in the biochemical mechanisms of temperature dependence of photosynthesis within Fallopia japonica. Environmental and Experimental Botany 181: 104248.[ScienceDirect]
Ishizuka W, Hikosaka K, Ito M, Morinaga S-I (2020) Temperature-related cline in the root mass fraction in East Asian wild radish along the Japanese archipelago. Breeding Science, 70: 321–330.[J-Stage] [PDF]
Liu Z, Hikosaka K, Li F, Jin G (2020) Variations in leaf economics spectrum traits for an evergreen coniferous species: tree size dominates over environment factors. Functional Ecology, 34:458-467. [Wiley]
Martinez KA, Fridley JD, Oguchi R, Aiba M, Hikosaka K (2019) Functional shifts in leaves of woody invaders of deciduous forests between their home and away ranges. Tree Physiology, 39: 1551-1560. [Wiley]
Yamaguchi DP, Mishima D, Nakamura K, Sano J, Nakaji T, Hiura T, Hikosaka K (2019) An upper limit in the photosynthetic acclimation to high temperature in canopy leaves of Quercus serrata. Frontiers in Forests and Global Change, 2: 19. [Frontiers]
Wang Q-W, Daumal M Nagano S, Yoshida N, Morinaga SI, Hikosaka K. Optimality and plasticity of biomass allocation in elevational ecotypes of Arabidopsis halleri at different soil nutrient availabilities. Journal of Plant Research, 132: 237-249. [Springer]
Kumarathunge DP, Medlyn BE, Drake JE, Tjoelker MG, Aspinwall MJ, Battaglia MB, Cano F, Carter KR, Cavaleri MA, Cernusak LA, Chambers JQ, Crous KY, De Kauwe MG, Dillaway DN, Dreyer E, Ellsworth DS, Ghannoum O, Han Q, Hikosaka K, Jensen AM, Kelly JWG, Kruger EL, Mercado LM, Onoda Y, Reich PB, Rogers A, Slot M, Smith NG, Tarvainen L, Tissue DT, Togashi HF, Tribuzy ES, Uddling J, Vårhammar A, Wallin G, Warren JM, Way DA (2019) Acclimation and adaptation components of the temperature dependence of plant photosynthesis at the global scale. New Phytologist, 222: 768-784. [Wiley]
Hikosaka K, Noda HM (2019) Modeling leaf CO2 assimilation and photosystem II photochemistry from chlorophyll fluorescence and the photochemical reflectance index. Plant, Cell and Environment, 42:730–739. [Wiley] [Springer-Nature] [研究紹介] [プレスリリース]
Ozaki H, Oguchi R, Hikosaka K (2018) Dependence of functional traits related to growth rates and their CO2 response on multiple habitat climate factors across Arabidopsis thaliana populations. Journal of Plant Research, 131: 987-999. [Springer]
Kohzuma K, Hikosaka K (2018) Physiological validation of photochemical reflectance index (PRI) as a photosynthetic parameter in mutants of Arabidopsis thaliana. Biochemical and Biophysical Research Communications, 498: 52-57. [ScienceDirect]
Yoshinaka K, Nagashima H, Yanagita Y, Hikosaka K (2018) The role of biomass allocation between lamina and petioles in a game of light competition in a dense stand of an annual plant. Annals of Botany, 121: 1055–1064. [Annals of Botany] [研究紹介]
Li Y, Shipley B, Price J, Dantas V, Tamme R, Wostoby M, Siefert A, Schamp B, Spasojevic M, Jung V, Laughlin D, Richardson S, Le Bagousse-Pinguet Y, Schöb C, Gazol A, Prentice HC, Gross N, Overton J, Cianciaruso M, Louault F, Kamiyama C, Nakashizuk T, Hikosaka K, Sasaki T, Katabuchi M, Frenette-Dussault C, Gaucherand S, Chen N, Vandewalle M, Batalha M (2018) Habitat filtering determines the functional niche occupancy of plant communities worldwide. Journal of Ecology, 106: 1001-1009. [Wiley]
Oikawa S, Ehara H, Koyama M, Hirose T, Hikosaka K, Chen CP, Nakamura H, Sakai H, Tokida T, Usui Ym Hasegawa T (2017) Nitrogen resorption in senescing leaf blades of rice exposed to Free-Air CO2 Enrichment (FACE) under different N fertilization levels. Plant and Soil, 418: 231-240. [Springer]
Oguchi R, Hiura T, Hikosaka K (2017) The effect of interspecific variation in photosynthetic plasticity on 4-year growth rate and 8-year survival of understorey tree seedlings in response to gap formations in a cool-temperate deciduous forest. Tree Physiology, 37: 1113-1127. [Oxford]
Kohzuma K, Chiba M, Anai T, Ueda M, Oguhi R, Shirai K, Hanada K, Hikosaka K, Fujii N (2017) Mutant selection in the self-incompatible plant, radish (Raphanus sativus L. var. sativus), using two-step TILLING. Breeding Science, 67: 268-276. [J-Stage]
Muryono M, Chen CP, Sakai H, Tokida T, Hasegawa T, Usui Y, Nakamura H, Hikosaka K (2017) Nitrogen distribution in leaf canopies of a high-yielding rice (Oryza sativa L.) cultivar Takanari. Crop Science, 57: 2080-2088. [ACSESS DL]
Onoda Y, Wright IJ, Evans JR, Hikosaka K, Kitajima K, Niinemets Ü, Poorter H, Tosens T, Westoby M (2017) Physiological and structural tradeoffs underlying the leaf economics spectrum. New Phytologist, 214: 1447-1463. [Wiley]
Ueda MU, Onoda Y, Kamiyama C, Hikosaka K (2017) Decades-long effects of high CO2 concentration on soil nitrogen dynamics in a natural CO2 spring. Ecological Research, 32: 215-225. [Springer]
Wang QW, Nagano S, Ozaki H, Morinaga SI, Hidema J, Hikosaka K (2016) Functional differentiation in UV-B-induced DNA damage and growth inhibition between highland and lowland ecotypes of two Arabidopsis species. Environmental and Experimental Botany, 131: 110-119. [ScienceDirect]
Wang QW, Kamiyama C, Hidema J, Hikosaka K (2016) UV-B induced DNA damage and UV-B tolerance mechanisms in species with different functional groups coexisting in subalpine moorlands. Oecologia, 181: 1069–1082. [Springer]
Hikosaka K (2016) Optimality of nitrogen distribution among leaves in plant canopies. Journal of Plant Research, 129: 299-311. [Springer]
Hikosaka K, Anten NPR, Borjigidai A, Kamiyama C, Sakai H, Hasegawa T, Oikawa S, Iio A, Watanabe M, Koike T, Nishina K, Ito A (2016) A meta-analysis of leaf nitogen distribution within plant canopies. Annals of Botany, 118: 239-247. [Oxford]
van Loon M, Rietkerk M, Dekker SC, Hikosaka K, Ueda MU, Anten NPR (2016) Plant-plant interactions mediate the plastic and genotypic response of Plantago asiatica to CO2: an experiment with plant populations from naturally high CO2 areas. Annals of Botany, 117: 1197-1207. [Oxford]
Yamaguchi DP, Nakaji T, Hiura T, Hikosaka K (2016) Effects of seasonal change and experimental warming on the temperature dependence of photosynthesis in the canopy leaves of Quercus serrata. Tree Physiology, 36: 1283-1295. [Oxford]
Oguchi R, Ozaki H, Hanada K. Hikosaka K (2016) Which plant trait explains the variations in relative growth rate and its response to elevated carbon dioxide concentration among Arabidopsis thaliana ecotypes derived from a variety of habitats? Oecologia, 180: 865-876. [Springer]
Siefert A, Violle C, Chalamandrier L, Albert CH, Taudiere A, Fajardo A, Aarssen LW, Baraloto CB, Carlucci MB, Cianciaruso MV, Dantas VdL, de Bello F, Duarte LDS, Fonseca CR, Freschet GT, Gaucherand S, Gross N, Hikosaka K, Jackson B, Jung V, Kamiyama C, Katabuchi M, Kembel SW, Kchenin E, Kraft NJB, Lagerström A, Le Bagousse-Pinguet, Li Y, Mason N, Messier J, Nakashizuka T, Oberton JMcC, Peltzer D, Pérez-Ramos IM, Pillar VD, Prentice HC, Richardson, Sasaki T, Schamp BS, Schöb C, Shipley B, Sundqvist M, Sykes MT, Vandewalle M, Wardle DA (2015) A global meta-analysis of the relative extent of intraspecific trait variation in plant communities. Ecology Letters, 18: 1406–1419. [Wiley]
Kubota S, Iwasaki T, Hanada K, Nagano AJ, Fujiyama A, Toyoda A, Sugano S, Suzuki Y, Hikosaka K, Ito M, Morinaga SI (2015) A genome scan for genes underlying microgeographic-scale local adaptation in a wild Arabidopsis species. PLOS Genetics, e1005361. [PLOS Genetics]
Noguchi K, Yamori W, Hikosaka K, Terashima I (2015) Homeostasis of the temperature sensitivity of respiration over a range of growth temperatures indicated by a modified Arrhenius model. New Phytologist, 207: 34-42. [Wiley]
Lin Y-S, Medlyn BE, Duursma RA, Prentice IC, Wang H, Baig S, Eamus D, de Dios VR, Mitchell P, Ellsworth DS, de Beeck MO, Wallin G, Uddling J, Tarvainen L, Linderson M-L, Cernusak LA, Nippert JB, Ocheltree TW, Tissue DT, Martin-StPaul NK, Rogers A, Warren JM, DeAngelis P, Hikosaka K, Han Q, Onoda Y, Gimeno TE, Barton CVM, Bennie J, Bonal D, Bosc A, Löw M, Macinins-Ng C, Rey A, Rowland L, Setterfield SA, Tausz-Posch S, Zaragoza-Castells J, Broadmeadow MSJ, Drake JE, Freeman M, Ghannoum O, Hutley LB, Kelly JW, Kikuzawa K, Kolari P, Koyama K, Limousin J-M, Meir P, Lola da Costa AC, Mikkelsen TN, Salinas N, Sun W, Wingate L (2015) Optimal stomatal behaviour around the world. Nature Climate Change, 5: 459-464. [Nature Publishing Group]
Kamiyama C, Oikawa S, Hikosaka K (2014b) Seasonal change in light partitioning among coexisting species of different functional groups along elevation gradient in subalpine moorlands. New Phytologist, 204: 913-923. [Wiley]
Kamiyama C, Katabuchi M, Sasaki T, Shimazaki M, Nakashizuka T, Hikosaka K (2014a) Leaf-trait responses to environmental gradients in moorland communities: contribution of intraspecific variation, species replacement and functional group replacement. Ecological Research, 29: 607-617. [Springer]
Wang QW, Hidema J, Hikosaka K (2014) Is UV-induced DNA damage greater at higher elevation? American Journal of Botany,101: 796-802. [AmerJBot]
Hikosaka K (2014) Optimal nitrogen distribution within a leaf canopy under direct and diffuse light. Plant, Cell and Environment, 37: 2077-2085. [Wiley]
Sasaki T, Katabuchi M, Kamiyama C, Shimazaki T, Nakashizuka T, Hikosaka K (2014) Vulnerability of moorland plant communities to environmental change: consequences of realistic species loss on functional diversity. Journal of Applied Ecology, 51: 299-308. [Wiley]
Iio A, Hikosaka K, Anten NPR, Nakagawa Y, Ito A (2014) Global dependence of field-observed leaf area index on climate in woody species: a systematic review. Global Ecology and Biogeography, 23: 274-285. [Wiley]
Yamori W, Hikosaka K, Way D (2014) Temperature response of photosynthesis in C3, C4 and CAM plants: Temperature acclimation and Temperature adaptation. Photosynthesis Research, 119: 101-117. [Springer]
Oikawa S, Okada M, Hikosaka K (2013) Effects of elevated CO2 on leaf area dynamics in nodulating and non-nodulating soybean stands. Plant and Soil, 373: 627-639. [Springer]
Sasaki T, Katabuchi M, Kamiyama C, Shimazaki M, Nakashizuka T Hikosaka, K (2013) Variations in species composition of moorland plant communities along environmental gradients within a subalpine zone in northern Japan. Wetlands, 33: 269-277. [Springer]
Nagano S, Nakano T, Hikosaka K, Maruta E (2013) Pinus pumila photosynthesis is suppressed by water stress in a wind-exposed mountain site. Arctic, Antarctic and Alpine Research, 45: 229-237. [AAAR]
Hikosaka K, Anten NPR (2012) An evolutionary game of leaf dynamics and its consequences for canopy structure. Functional Ecology, 26: 1024-1032. [Wiley] [Lay summary]
Nagashima H, Hikosaka K (2012) Not only light quality but also mechanical stimuli are involved in height convergence in crowded Chenopodium album stand. New Phytologist, 195: 803-811. [Wiley]
Akita R, Kamiyama C, Hikosaka K (2012) Polygonum sachalinense alters the balance between capacities of regeneration and carboxylation of ribulose-1,5-bisphosphate in response to growth CO2 increment but not the nitrogen allocation within the photosynthetic apparatus. Physiologia Plantarum, 146: 404-412. [Wiley]
Sasaki T, Katabuchi M, Kamiyama C, Shimazaki T, Nakashizuka T, Hikosaka K (2012b) Nestedness and niche-based species loss in moorland plant communities. Oikos, 121: 1783-1790. [Wiley]
Sasaki T, Katabuchi M, Kamiyama C, Shimazaki T, Nakashizuka T, Hikosaka K (2012a) Diversity partitioning of moorland plant communities across hierarchical spatial scales. Biodiversity and Conservation, 21: 1577-1588. [Springer]
Shimazaki M, Sasaki T, Hikosaka K, Nakashizuka T (2011) Environmental dependence of population dynamics and height growth of a subalpine conifer across its vertical distribution: an approach using high-resolution aerial photographs. Global Change Biology,17: 3431-3438. [Wiley]
Muller O, Hirose T, Werger MJA, Hikosaka K (2011) Optimal use of leaf nitrogen explains seasonal change in leaf nitrogen content of an understory evergreen shrub. Annals of Botany, 108: 529-536. [Oxford]
Nagashima H, Hikosaka K (2011) Plants in a crowded stand regulate their height growth so as to maintain similar heights to neighbours even when they have potential advantages in height growth. Annals of Botany, 108: 207-214. [Oxford]
Nakamura I, Onoda Y, Matsushima N, Yokoyama J, Kawata M, Hikosaka K (2011) Phenotypic and genetic differences in a perennial herb across a natural gradient of CO2 concentration. Oecologia, 165: 809-818. [Springer]
Hikosaka K, Kinugasa T, Oikawa S, Onoda Y, Hirose T (2011) Effects of elevated CO2 concentration on seed production in C3 annual plants. Journal of Experimental Botany, 62: 1523-1530. [Oxford]
Hikosaka K, Kawauchi Y, Kurosawa T (2010) Why does Viola hondoensis (Violaceae) shed its winter leaves in spring? American Journal of Botany, 97: 1944-1950. [AmerJBot]
Kamiyama C, Oikawa S, Kubo T, Hikosaka K (2010) Light interception in species with different functional groups coexisting in moorland plant communities. Oecologia, 164: 591-599. [Springer]
Osada N, Onoda Y, Hikosaka K (2010) Effects of atmospheric CO2 concentration, irradiance and soil nitrogen availability on leaf photosynthetic traits on Polygonum sachalinense around the natural CO2 springs in northern Japan. Oecologia, 164: 41-52. [Springer]
Hikosaka K (2010) Mechanisims underlying interspecific variation in photosynthetic capacity across wild plant species. Plant Biotechnology, 27: 223-229. [J-Stage] [PDF]
Oikawa S, Miyagi K-M, Hikosaka K, Okada M, Matsunami T, Kokubun M, Kinugasa T, Hirose T (2010) Interactions between elevated CO2 and N2-fixation determine soybean yield - a test using non-nodulated murant. Plant and Soil, 330: 163-172. [Springer]
Yamori W, Noguchi K, Hikosaka K, Terashima I (2010) Phenotypic plasticity in photosynthetic temperature acclimation among crop species with different cold tolerances. Plant Physiology,15: 388-399 [Plant Physiology].
Nagano S, Nakano T, Hikosaka K, Maruta E (2009) Needle traits of evergreen coniferous shrub growing at wind-exposed and protected sites in a mountain region: Does Pinus pumila produce needles with greater mass per area under wind-stress conditions. Plant Biology, 11: 94-100. [Wiley]
Muller O, Oguchi R, Hirose T, Werger MJA, Hikosaka K (2009) The leaf anatomy of a broad-leaved evergreen allows an increase in nitrogen content in winter. Physiologia Plantarum, 136:299-309. [Wiley]
Borjigidai A, Hikosaka K, Hirose T (2009) Carbon balance in a monospecific stand of an annual herb Chenopodium album at an elevated CO2 concentration. Plant Ecology, 203: 33-44. [Springer]
Hikosaka K, Shigeno A (2009) The role of Rubisco and cell walls for the interspecific variation in photosynthetic capacity. Oecologia, 160:443-451. [Springer]
Hikosaka K, Osone Y (2009) A paradox of leaf-trait convergence: why is leaf nitrogen concentration higher in species with higher photosynthetic capacity? Journal of Plant Research, 122: 245-251. [Springer]
Onoda Y, Hirose T, Hikosaka K (2009) Does photosynthesis adapt to CO2-enriched environments? An experiment on plants originating from three natural CO2 springs. New Phytologist, 182: 698-709. [Wiley]
Yamori W, Noguchi K, Hikosaka K, Terashima I (2009) Cold tolerant crop species have greater temperature homeostasis of leaf respiration and photosynthesis than cold sensitive species. Plant and Cell Physiology, 50: 203-215. [Oxford]
Matsumoto Y, Oikawa S, Yasumura Y, Hirose T, Hikosaka K (2008) Reproductive yield of individuals competing for light in a dense stand of Xanthium canadense. Oecologia, 157: 185-195. [Springer]
Oikawa S, Hikosaka K, Hirose T (2008) Does leaf shedding increase the whole-plant carbon gain despite some nitrogen being lost with shedding? New Phytologist, 178: 617-624. [Wiley]
Oguchi R, Hikosaka K, Hiura T, Hirose T (2008) Costs and benefits of photosynthetic light acclimation of tree seedlings in response to gap formation. Oecologia, 155: 665-675. [Springer]
Motomura H, Hikosaka K, Suzuki M (2008) Relationships between photosynthetic activity and silica accumulation with age of leaf in Sasa veitchii (Poaceae, Bambusioideae). Annals of Botany, 101: 463-468. [Oxford]
Ishikawa K, Onoda Y, Hikosaka K (2007) Intraspecific variation in temperature dependence of gas exchange characteristics of Plantago asiatica ecotypes from different temperature regimes. New Phytologist, 176: 356-364. [Wiley]
Miyagi KM, Kinugasa T, Hikosaka K, Hirose T (2007) Elevated CO2 concentration, nitrogen use, and seed production in annual plants. Global Change Biology, 13: 2161-2170. [Wiley]
Yasumura Y, Hikosaka K, Hirose T (2007) Nitrogen resorption and protein degradation during leaf senescence in Chenopodium album grown in different light and nitrogen conditions. Functional Plant Biology, 34: 409-417. [CSIRO]
Onoda Y, Hirose T, Hikosaka K (2007) Effect of elevated CO2 on leaf starch, nitrogen and photosynthesis of plants growing at three natural CO2 springs in Japan. Ecological Research, 22: 475-484. [Springer] [PDF]
Hikosaka K, Nabeshima E, Hiura T (2007) Seasonal changes in temperature response of photosynthesis in canopy leaves of Quercus crispula in a cool-temperate forest. Tree Physiology, 27: 1035-1041. [Heron]
Oguchi R, Hikosaka K, Hiura T, Hirose T (2006) Leaf anatomy and light acclimation in woody seedlings after gap formation in a cool-temperate deciduous forest. Oecologia, 149: 571-582. [Springer]
Oikawa S, Hikosaka K, Hirose T (2006) Leaf life span and lifetime carbon gain of individual leaves in a stand of an annual herb, Xanthium canadense. New Phytologist, 172: 104-116. [Blackwell] [PDF]
Yasumura Y, Hikosaka K, Hirose T (2006b) Seasonal changes in photosynthesis, nitrogen content and nitrogen partitioning in Lindera umbellata leaves grown under high or low irradiance. Tree Physiology, 26: 1315-1323. [Heron]
Yasumura Y, Hikosaka K, Hirose T (2006a) Resource allocation to vegetative and reproductive growth in relation to mast seeding in Fagus crenata. Forest Ecology and Management, 229: 228-233. [ScienceDirect]
Borjigidai A, Hikosaka K, Hirose T, Hasegawa T, Okada M, Kobayashi K (2006) Sesonal changes in temperature dependence of photosynthetic rate in rice under a free-air CO2 enrichment. Annals of Botany, 97: 549-557. [Oxford] [PDF]
Hikosaka K, Ishikawa K, Borjigidai A, Muller O, Onoda Y (2006) Temperature acclimation of photosynthesis: mechanisms involved in the changes in temperature dependence of photosynthetic rate. Journal of Experimental Botany, 57: 291-302. [Oxford] [PDF]
Kinugasa T, Hikosaka K, Hirose T (2005 ) Reproduction and respiration in an annual under elevatedCO2. Phyton 45: 415-418.
Onoda Y, Hikosaka K, Hirose T (2005) Natural CO2 springs in Japan: a case study of vegetation dynamics. Phyton 45: 389-394.
Onoda Y, Hikosaka K, Hirose T (2005b) The balance between RuBP carboxylation and RuBP regeneration: a mechanism underlying the interspecific variation in acclimation of photosynthesis to seasonal change in temperature. Functional Plant Biology, 32: 903-910. [CSIRO]
Wright IJ, Cornelissen JHC, Falster DS, Groom PK, Hikosaka K, Lee W, Lusk CH, Niinemets U, Oleksyn J, Osada N, Poorter H, Reich PB, Warton DI, Westoby M (2005b) Modulation of leaf economic traits and trait relationships by climate. Global Ecology and Biogeography, 14: 411-421. [Blackwell]
Hikosaka K (2005b) Nitrogen partitioning in the photosynthetic apparatus of Plantago asiatica leaves grown at different temperature and light conditions: similarities and differences between temperature and light acclimation. Plant and Cell Physiology, 46: 1283-1290. [Oxford]
Oikawa S, Hikosaka K, Hirose T (2005) Dynamics of leaf area in a canopy of an annual herb, Xanthium canadense. Oecologia, 143: 517-526. [Springer]
Muller O, Hikosaka K, Hirose T (2005) Seasonal changes in light and temperature affect the balance between light utilisation and light harvesting components of photosynthesis in an evergreen understorey. Oecologia, 143: 501-508. [Springer]
Oguchi R, Hikosaka K, Hirose T (2005) Leaf anatomy as a contraint for photosynthetic acclimation: differential responses in leaf anatomy to increasing growth irradiance among three deciduous trees. Plant, Cell and Environment, 28: 916-927. [Blackwell] [PDF]
Kinugasa T, Hikosaka K, Hirose T (2005) Respiration and reproductive effort in Xanthium canadense. Annals of Botany, 96: 81-89. [Oxford] [PDF]
Yasumura Y, Onoda Y, Hikosaka K, Hirose T (2005) Nitrogen resorption from leaves under different growth irradiance in three deciduous woody species. Plant Ecology, 178: 29-37. [Springer]
Hikosaka K, Onoda Y, Kinugasa K, Anten NPR, Nagashima H, Hirose T (2005b) Plant responses to elevated CO2 concentration at different scales: leaf, whole plant, canopy, and population. Ecological Research, 20: 243-253. [Springer]
Hikosaka K, Takashima T, Kabeya D, Hirose T, Kamata N (2005a) Biomass allocation and leaf chemical defense in defoliated seedlings of Quercus serrata with respect to carbon-nitrogen balance. Annals of Botany, 95: 1025-1032. [Oxford] [PDF]
Wright IJ, Reich PB, Cornelissen JHC, Falster DS, Garnier E, Hikosaka K, Lamont BB, Lee W, Oleksyn J, Osada N, Poorter H, Villar R, Warton DI, Westoby M (2005a) Assessing the generality of global leaf trait relationships. New Phytologist, 166: 485-496. [Blackwell] [PDF]
Onoda Y, Hikosaka K, Hirose T (2005a) Seasonal change in the balance between capacities of RuBP carboxylation and RuBP regeneration affects CO2 response of photosynthesis in Polygonum cuspidatum. Journal of Experimental Botany, 56: 755-763. [Oxford] [PDF]
Hikosaka K (2005a) Leaf canopy as a dynamic system: ecophysiology and optimality in leaf turnover. Annals of Botany, 95: 521-533. [Oxford] [PDF]
Hikosaka K (2004) Interspecific difference in the photosynthesis-nitrogen relationship: patterns, physiological causes, and ecological importance Journal of Plant Research, 117: 481-494. [Springer]
Hikosaka K, Kato MC, Hirose T (2004) Photosynthetic rates and partitioning of absorbed light energy in photoinhibited leaves. Physiologia Plantarum, 121: 699-708. [Blackwell]
Takashima T, Hikosaka K, Hirose T (2004) Photosynthesis or persistence: nitrogen allocation in leaves of evergreen and deciduous Quercus species. Plant, Cell and Environment, 27: 1047-1054. [Blackwell] [PDF]
Oikawa S, Hikosaka K, Hirose T, Hori Y, Shiyomi M, Takahashi S (2004) Cost-benefit relationships in leaves emerging at different times in a deciduous fern Pteridium aquilinum. Canadian Journal of Botany, 82: 521-527. [NRC]
Onoda Y, Hikosaka K, Hirose T (2004) Allocation of nitrogen to cell walls decreases photosynthetic nitrogen-use efficiency. Functional Ecology, 18: 419-425. [Blackwell] [PDF]
Wright IJ, Reich PB, Westoby M, Ackerly DD, Baruch Z, Bongers F, Cavendar-Bares J, Chapin T, Cornelissen JHC, Diemer M, Flexas J, Garnier E, Groom PK, Gulias J, Hikosaka K, Lamont BB, Lee T, Lee B, Lusk C, Midgley JJ, Navas M-L, Niinemets U, Oleksyn J, Osada N, Poorter H, Poot P, Prior L, Pyankov VI, Roumet C, Thomas SC, Tjoelker MG, Veneklaas EJ, Villar R (2004) The worldwide leaf economics spectrum. Nature, 428: 821-827. [PDF]
Hikosaka K, Yamano T, Nagashima H, Hirose T (2003) Light-acquisition and use of individuals as influenced by elevated CO2 in even-aged monospecific stands of Chenopodium album. Functional Ecology, 17: 786-795. [Blackwell] [PDF]
Kinugasa T, Hikosaka K, Hirose T (2003) Reproductive allocation of an annual, Xanthium canadense, at an elevated carbon dioxide concentration. Oecologia, 137: 1-9. [Springer]
Tsonev TD, Hikosaka K (2003) Contribution of photosynthetic electron transport, heat dissipation, and recovery of photoinactivated photosystem II to photoprotection at different temperatures in Chenopodium album leaves. Plant and Cell Physiology, 44: 828-835. [Oxford]
Hikosaka K (2003) A model of dynamics of leaves and nitrogen in a plant canopy: An integration of canopy photosynthesis, leaf life span, and nitrogen use efficiency. American Naturalist, 162: 149-164. [UnivChicagoPress]
Ishizaki S, Hikosaka K, Hirose T (2003) Increase in leaf mass per area benefits plant growth at elevated CO2 concentration. Annals of Botany, 91: 905-914. [Oxford] [PDF]
Nagashima H, Yamano T, Hikosaka K, Hirose T (2003) Effects of elevated CO2 on the size structure in even-aged monospecific stands of Chenopodium album. Global Change Biology, 9: 619-629. [Blackwell]
Oguchi R, Hikosaka K, Hirose T (2003) Does the photosynthetic light-acclimation need change in leaf anatomy? Plant, Cell and Environment, 26: 505-512. [Blackwell] [PDF]
Kato MC, Hikosaka K, Hirotsu N, Makino A, Hirose T (2003) The excess light energy that is neither utilized in photosynthesis nor dissipated by photoprotective mechanisms determines the rate of photoinactivation in photosystem II. Plant and Cell Physiology, 44: 318-325. [Oxford]
Yasumura Y, Hikosaka K, Matsui K, Hirose T (2002) Leaf-level nitrogen-use efficiency of canopy and understorey species in a beech forest. Functional Ecology, 16: 826-834. [Blackwell] [PDF]
Werger MJA, Hirose T, During HJ, Heil GW, Hikosaka K. Ito T, Nachinshonhor, Shibazaki K, Nagamatsu D, Takatsuki S, Anten NPR (2002) Light partitioning among species and species replacement in early successional grasslands. Journal of Vegetation Science, 13: 615-626. [PDF]
Kato MC, Hikosaka K, Hirose T (2002b) Photoinactivation and recovery of photosystem II of Chenopodium album leaves grown at different levels of irradiance and nitrogen availability. Functional Plant Biology, 29: 787-795. [CSIRO]
Kato MC, Hikosaka K, Hirose T (2002a) Leaf discs floated on water are different from intact leaves in photosynthesis and photoinhibition. Photosynthesis Research, 72: 65-70. [Springer]
Hikosaka K, Nagamatsu D, Ishii HS, Hirose T (2002) Photosynthesis-nitrogen relationships in species at different altitudes of Mount Kinabalu, Malaysia. Ecological Research, 17: 305-313. [Springer]
Hikosaka K, Nagashima H, Harada Y, Hirose T (2001) A simple formulation of interaction between individuals competing for light in a monospecific stand. Functional Ecology, 15: 642-646. [Blackwell] [PDF]
Hikosaka K, Hirose T (2001a) Nitrogen uptake and use by competing individuals in a Xanthium canadense stand. Oecologia 126: 174-181. [Springer]
Hikosaka K, Hirose T (2000) Photosynthetic nitrogen use efficiency in species coexisting in a warm-temperate evergreen forest. Tree Physiology, 20: 1249-1254. [Heron]
Hikosaka K, Murakami A, Hirose T (1999b) Balancing carboxylation and regenaration of ribulose-1,5-bisphosphate in leaf photosynthesis in temperature acclimation of an evergreen tree, Quercus myrsinaefolia. Plant, Cell & Environment, 22: 841-849. [Blackwell] [PDF]
Hikosaka K, Sudoh S, Hirose T (1999a) Light acquisition and use of individuals competing in a dense stand of an annual herb, Xanthium canadense. Oecologia, 118: 388-396. [Springer]
Hikosaka K, Hanba YT, Hirose T, Terashima I (1998a) Photosynthetic nitrogen-use efficiency in woody and herbaceous plants. Functional Ecology, 12: 896-905. [Blackwell] [PDF]
Hikosaka K, Hirose T (1998) Leaf and canopy photosynthesis of C3 plants at elevated CO2 in relation to optimal partitioning of nitrogen among photosynthetic components: theoretical prediction. Ecological Modelling,106: 247-259. [ScienceDirect]
Anten NPR, Miyazawa K, Hikosaka K, Nagashima H, Hirose T (1998) Leaf nitrogen distribution in relation to leaf age and photon flux density in dominant and subordinate plants in dense stands of a dicotyledonous herb. Oecologia, 113: 314-324. [Springer]
Hikosaka K (1997) Modelling optimal temperature acclimation of the photosynthetic apparatus in C3 plants with respect to nitrogen use. Annals of Botany, 80: 721-730. [Oxford] [PDF]
Hikosaka K, Hirose T (1997) Leaf angle as a strategy for light competition: Optimal and evolutionarily stable light-extinction coefficients within a canopy. Ecoscience, 4: 501-507. [Ecoscience]
Funayama S, Hikosaka K, Yahara T (1997) Effects of virus infection and growth irradiance on fitness components and photosynthetic properties of Eupatorium makinoi (Compositae). American Journal of Botany, 84: 823-829. [AmJBot]
Hikosaka K, Terashima I (1996) Nitrogen partitioning among photosynthetic components and its consequence in sun and shade plants. Functional Ecology, 10: 335-343.
Hikosaka K (1996) Effects of leaf age, nitrogen nutrition and photon flux density on the organization of the photosynthetic apparatus in leaves of a vine (Ipomoea tricolor Cav.) grown horizontally to avoid mutual shading of leaves. Planta, 198: 144-150. [Springer]
Terashima I, Hikosaka K (1995) Comparative ecophysiology of leaf and canopy photosynthesis. Plant, Cell & Environment, 18: 1111-1128. [Blackwell]
Hikosaka K, Terashima I (1995) A model of the acclimation of photosynthesis in the leaves of C3 plants to sun and shade with respect to nitrogen use. Plant, Cell & Environment, 18: 605-618. [Blackwell]
Hikosaka K, Terashima I, Katoh S (1994) Effects of leaf age, nitrogen nutrition and photon flux density on the distribution of nitrogen among leaves of a vine (Ipomoea tricolor Cav.) grown horizontally to avoid mutual shading of leaves. Oecologia, 97: 451-457. [Springer]
18) Koike T, Kitao M, Hikosaka K, Agathokleous E, Watanabe Y, Watanabe M, Funada R, Eguchi N (2018) Photosynthetic and photosynthesis-related responses of Japanese native trees to CO2; Results from phytotrons, open-top chambers, natural CO2 springs, and free-air CO2 enrichment. In: eds. Adams WW III, Terashima I, pp. 97-139, The Leaf: A Platform for Performing Photosynthesis and Feeding the Plant. Springer, Cham. [Springer]
Hikosaka K, Sasaki T, Kamiyama C, Katabuchi M, Oikawa S, Shimazaki M, Kimura H, Nakashizuka T (2016) Trait-based approaches for understanding species niche, coexistence and functional diversity in subalpine moorlands. In: ed. Kudo G, pp. 17-40, Structure and function of mountain ecosystems in Japan.[Springer]
Nakashizuka T, Shimazaki M, Sasaki T, Tanaka T, Kurokawa H, Hikosaka K (2016) Influences of climatic change on the distribution and population dynamics of subalpine coniferous forest in the Hakkoda Mountains, Northern Japan. In: ed. Kudo G, pp. 1-15, Structure and function of mountain ecosystems in Japan.[Springer]
Hikosaka K, Niinemets Ü, Anten NPR (2016) Canopy Photosynthesis: From Basics to Applications. Springer, Berlin. [Springer]
Hikosaka K, Kumagai T, Ito A (2016) Modeling canopy photosynthesis. In: eds. Hikosaka K, Niinemets Ü, Anten NPR, pp. 239-268, Canopy Photosynthesis: From Basics to Applications. Springer, Berlin. [Springer]
Hikosaka K, Noguchi K, Terashima I (2016) Modeling leaf gas exchange. In: eds. Hikosaka K, Niinemets Ü, Anten NPR, pp. 61-100, Canopy Photosynthesis: From Basics to Applications. Springer, Berlin. [Springer]
Hikosaka K, Yasumura Y, Muller O, Oguchi R (2014) Resource allocation and trade-offs in carbon gain of leaves under changing environment. In: eds. Tausz M, Grulke N. Trees in a changing environment. Plant ecophysiology Vol. 9. Springer, Dordrecht. [Springer]
Kohyama T, Yoshioka T, Urabe J, Hikosaka K, Sugimoto A, Shibata H, Wada E (2007) Terrestrial ecosystems in Monsoon Asia: scaling up from shoot module to watershed. In: eds, Canadel J, Pataki D, Pitelka L, Terrestrial ecosystems in a changing world. pp. 285-296, Terrestrial ecosystems in a changing world. Springer-Verlag, Berlin. [Springer]
Onoda Y, Hikosaka K, Hirose T (2005) The balance between capacities of RuBP carboxylation and RuBP regeneration: Interspecific variation in response to seasonal environment. In: eds. van der Est A, Bruce D. Photosynthesis: Fundamental Aspects to Global Perspectives. pp. 626-628. ACG Publishing, Lawrence.
Oguchi R, Hikosaka K, Hiura T, Hirose T (2005) Photosynthetic light acclimation of tree seedlings to artificial gap formations in a cool-temperate deciduous forest. In: eds. van der Est A, Bruce D. Photosynthesis: Fundamental Aspects to Global Perspectives, 628-630. ACG Publishing, Lawrence.
Hikosaka K (2005) Nitrogen partitioning in the photosynthetic apparatus of Plantago asiatica leaves acclimated to different temperature and light conditions.In: eds. van der Est A, Bruce D. Photosynthesis: Fundamental Aspects to Global Perspectives, pp. 632-634. ACG Publishing, Lawrence.
Muller O, Hikosaka K, Anten NPR, Werger MJA, Hirose T (2005) Optimal leaf nitrogen content of an evergreen understorey plant in a temperate climate. In: eds. van der Est A, Bruce D. Photosynthesis: Fundamental Aspects to Global Perspectives, pp. 636-638. ACG Publishing, Lawrence.
Onoda Y, Hikosaka K, Hirose T (2005) Natural CO2 springs in Japan: a case study of vegetation dynamics. Phyton 45: 389-394.
Kinugasa T, Hikosaka K, Hirose T (2005) Reproduction and respiration in an annual under elevated CO2. Phyton 45: 415-418.
Hikosaka K, Hirose T (2001b) Temperature acclimation of the photosynthetic apparatus in an evergreen shrub, Nerium oleander. PS2001 Proceedings: 12th International Congress on Photosynthesis. CSIRO Publishing, Melbourne.
Anten NPR, Hikosaka K, Hirose T (2000) Nitrogen utilisation and the photosynthetic system. In: eds. B Marshall and J Roberts, Leaf development and canopy growth. pp. 171-203, Sheffield Acedemic Press, Sheffield.
Hikosaka K, Murakami A, Hirose T (1998b) Temperature acclimation of the photosynthetic apparatus: balancing regeneration and carboxylation of ribulose bisphosphate. In: ed. G. Garab,Photosynthesis: Mechanisms and effects. Vol. V, pp. 3395-3398. Kluwer Academic Press, Dordrecht.
Terashima I, Ishibashi M, Ono K, Hikosaka K (1995) Three resistances to CO2 diffusion: leaf-surface water, intercellular spaces and mesophyll cells. In: ed by Mathis P, Photosynthesis: From Light to Biosphere Vol V, pp. 537-542, Kluwer Academic Press, Dordrecht.
Hikosaka K, Okada K, Terashima I, Katoh S (1993) Acclimation and senescence of leaves: their roles in canopy photosynthesis. In: eds by Yamamoto HY, Smith CM, Photosynthetic Responses to the Environment, pp. 1-13, American Society of Plant Physiologist, Lancaster.
Hikosaka K, Terashima I, Katoh S (1992) Effects of light, nutrient and age on nitrogen content and photosynthesis of leaves. In: ed by Murata N, Research in Photosynthesis Vol. IV, pp. 381-384, Kluwer Academic Publishers, Dordrecht.
彦坂幸毅 (2016) 植物の光合成・物質生産の測定とモデリング 共立出版 [共立出版]
日本生態学会東北地区会編 (2016) 生態学が語る東日本大震災 自然界に何が起きたのか 文一総合出版 [文一総合出版]
日本光生物学協会 光と生命の事典 編集委員会 編 (2016) 光と生命の事典 朝倉書店(分担執筆:「葉の光合成系の光順化」)
彦坂幸毅・佐々木雄大・神山千穂・片渕正紀・及川真平・嶋崎仁哉・木村啓・中静透 (2014) 「機能形質から種のニッチ、共存、そして消失を理解する:亜高山帯湿原群集を対象とした群集生態学と生理生態学のアプローチ」地球環境 19: 33-46. [PDF]
田中孝尚・嶋崎仁哉・黒川紘子・彦坂幸毅・中静透 (2014) 気候変動が森林動態に与える影響と将来予測:八甲田山のオオシラビソを例として 地球環境 19: 47-55
彦坂幸毅・長嶋寿江 (2014) 「光に対する応答」身近な雑草の生物学 朝倉書店 [朝倉書店]
彦坂幸毅 (2014) 「高二酸化炭素濃度に対する植物の長期的な応答」化学と生物 52: 113-120. [PDF]
彦坂幸毅・寺島一郎 (2013) 「植物と二酸化炭素」化学と生物 51: 250-256. [PDF]
日本進化学会 (2012) 進化学事典 共立出版(分担執筆:「環境への生理的適応(植物)」)
石川統・黒岩常祥・塩見政衛・松本忠夫・守隆夫・八杉貞雄・山本正幸編 (2010) 生物学辞典 東京化学同人(分担執筆:「葉面積指数」など数項目)
彦坂幸毅 (2009) 「個葉の光合成速度が決まるしくみと測定原理」低温科学 67: 67-71 [PDF]
綿貫豊・彦坂幸毅 (2007) 総括:生理生態学の役割 日本生態学会誌 57: 369-372.
彦坂幸毅・綿貫豊 (2007) 分子レベルから生態現象へ:生理生態学の展開 日本生態学会誌 57: 334.
彦坂幸毅(2006)「光合成の環境応答」 地球環境と生態系 共立出版 pp. 3-11. [共立出版]
彦坂幸毅(2004)「光合成過程の生態学」 植物生態学 朝倉書店 pp. 42-80. [朝倉書店]
彦坂幸毅(2004)「生理生態的特性の適応戦略・植物の場合」 生態学入門 日本生態学会編 東京化学同人 pp. 84-91. [東京化学同人]
日本光合成研究会編(2003)光合成事典 学会出版センター(編集協力・分担筆:「個葉の光合成」「群落の光合成」など36項目)
彦坂幸毅(2003)「植物が吸収した光のゆくえ」 化学と生物 41: 559-561.
巌佐庸・松本忠夫・菊沢喜八郎/日本生態学会編 (2003) 生態学事典 共立出版(分担筆:「光合成速度」「光合成の機構」「順化」)
彦坂幸毅(2003)「光合成機能の評価2 クロロフィル蛍光から何がわかるか」 光と水と植物のかたち 種生物学会編 文一総合出版 pp. 245-258.
彦坂幸毅(2003)「群落の光合成:葉の集合としての群落、個体の集合としての群落」 光と水と植物のかたち 種生物学会編 文一総合出版 pp. 57-84.
村岡裕由・彦坂幸毅(2003)「植物生理生態学が目指すもの」 光と水と植物のかたち 種生物学会編 文一総合出版 pp. 11-26.
衣笠利彦・彦坂幸毅・広瀬忠樹(2003)「一年草の一生におけるエネルギー消費−呼吸消費を考慮に入れた物質分配−」 日本生態学会誌 53: 55-60.
彦坂幸毅(2001)「環境への適応と順化」 植物生理学シリーズ 第5巻 環境応答 寺島一郎編 朝倉書店 pp. 187-195.
彦坂幸毅(2001)「光合成」アエラムック 植物学がわかる 朝日新聞社 pp. 112-115.
彦坂幸毅(1999)「植物の窒素利用」 植物細胞工学シリーズ11 環境応答−植物の生存戦略とその分子機構− 渡邊昭・篠崎一雄・寺島一郎編 秀潤社 pp. 160-170.
彦坂幸毅(1998)「葉はなぜ枯れるのか−葉の老化と順化」 科学 68: 88-93.
彦坂幸毅(1997)「生育環境に対する個葉光合成系の順化」 日本生態学会誌 47: 295-300.
西谷和彦・島崎研一郎監訳 植物生理学 第3版 培風館(L.Taiz and E. Zaier eds Plant Phyiology 3rd ed, Chapter 9, Sinauer Associates Inc)