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*Corresponding author

  1. Hoshika, Y.*, Moura, B.B., Cotrozzi, L., Nali, C., Alfarraj, S., Rennenberg, H. and Paoletti, E. (2024). An assessment of ozone risk for date palm suggests that phytotoxic ozone dose nonlinearly affects carbon gain. Environmental Pollution, 342: 123143. doi: 10.1016/j.envpol.2023.123143

  2. Pisuttu, C., Risoli, S., Cotrozzi, L., Nali, C., Pellegrini, E.*, Hoshika, Y., Moura, B.B. and Paoletti, E. (2024). Untangling the role of leaf age specific osmoprotectant and antioxidant responses of two poplar clones under increasing ozone concentrations. Plant Physiology and Biochemistry, 208: 108450. doi: 10.1016/j.plaphy.2024.108450

  3. Viviano, A.*, Mori, E., Manzini, J., Paoletti, E., Hoshika, Y., Cotrozzi, L., Pisuttu, C., Risoli, S., Materassi, A. and Moura, B.B. (2024). The magpie and the grapes: increasing ozone exposure impacts fruit consumption by a common corvid in a suburban environment. Pest Management Science, in press. doi: 10.1002/ps.7819

  4. Hoshika, Y.*, Cotrozzi, L.*,  Gavrichkova, O., Nali, C., Pellegrini, E., Scartazza, A. and Paoletti, E. (2023). Functional responses of two Mediterranean pine species in an ozone Free-Air Controlled Exposure (FACE) experiment. Tree Physiology, 43:1548-1561. doi: 10.1093/treephys/tpad068

  5. Cheesman, A.W.*, Brown, F., Farha, M.N., Rosan, T.M., Folberth, G.A., Hayes, F., Moura, B.B., Paoletti, E., Hoshika, Y., Osborne, C.P., Cernusak, L.A., Ribeiro, R.V. and Sitch, S. (2023). Impacts of ground-level ozone on sugarcane production. Science of the Total Environment, 904: 166817. doi: 10.1016/j.scitotenv.2023.166817

  6. Meschini, R.*, Paoletti, E., Hoshika, Y., Sideri-Manoka, Z.A., Dell'Orso, A., Magni, G. and Kuzminsky, E. (2023). Comet assay as an early predictor tool to detect ozone enhanced sensitivity of vegetation in a free-air controlled long-term exposure. Plant Stress, 10:100236. doi: 10.1016/j.stress.2023.100236

  7. Moura, B.B.*, Manzini, J., Paoletti, E. and Hoshika, Y. (2023). A three-year free-air experimental assessment of ozone risk on the perennial Vitis vinifera crop species. Environmental Pollution, 338: 122626, doi: 10.1016/j.envpol.2023.122626

  8. Parri, S.*, Romi, M., Hoshika, Y., Giovannelli, A., Dias, M.C., Piritore, F.C., Cai, G. and Cantini, C. (2023). Morpho-Physiological Responses of Three Italian Olive Tree (Olea europaea L.) Cultivars to Drought Stress. Horticulturae, 9: 830. doi: 10.3390/horticulturae9070830

  9. Kittipornkul, P., Thiravetyan, P., Hoshika, Y., Sorrentino, B., Popa, I., Leca, S., Sicard, P., Paoletti, E. and De Marco, A.* (2023). Surface ozone risk to human health and vegetation in tropical region: The case of Thailand. Environmental Research, 234:116566. doi: 10.1016/j.envres.2023.116566

  10. Manzini, J., Hoshika, Y.*, Carrari, E., Sicard, P., Watanabe, M., Tanaka, R., Badea, O., Nicese, F.P., Ferrini, F. and Paoletti, E. (2023). FlorTree: A unifying modelling framework for estimating the species-specific pollution removal by individual trees and shrubs. Urban Forestry & Urban Greening, 85: 127967. doi: 10.1016/j.ufug.2023.127967

  11. Manzini, J., Hoshika, Y.*, Moura, B.B. and Paoletti, E. (2023). Exploring a new O3 index as a proxy for the avoidance/tolerance capacity of forest species to tolerate O3 injury. Forests, 14: 901. doi: 10.3390/f14050901

  12. Agathokleous, E.*, Kitao, M., Hoshika, Y., Haworth, M., Tang, Y. and Koike, T. (2023). Ethylenediurea protects against ozone phytotoxicity not by adding nitrogen or controlling stomata in a stomata-unresponsive hybrid poplarScience of the Total Environment, 875: 162672. doi: 10.1016/j.scitotenv.2023.162672

  13. Sicard, P.*, Coulibaly, F., Lameiro, M., Araminiene, V., De Marco, A., Sorrentino, B., Anav, A., Manzini, J., Hoshika, Y., Moura, B.B. and Paoletti, E. (2023). Object-based classification of urban plant species from very high-resolution satellite imagery. Urban Forestry & Urban Greening, 81: 127866. doi: 10.1016/j.ufug.2023.127866

  14. Arab, L.*, Hoshika, Y., Paoletti, E., White, P.J., Dannenmann, M., Mueller, M., Ache, P., Hedrich, R., Alfarraj, S., Albasher, G. and Rennenberg, H. (2023). Chronic ozone exposure impairs the mineral nutrition of date palm (Phoenix dactylifera) seedlings. Science of the Total Environment, 862: 160675. doi: 10.1016/j.scitotenv.2022.160675

  15. Moura, B.B., Carrari, E., Dalstein-Richier, L., Sicard, P., Leca, S., Badea, O., Pitar-Silaghi, D., Shashikumar, A., Ciriani, M.-L., Paoletti, E. and Hoshika, Y.* (2022). Bridging experimental and monitoring research for visible foliar injury as bio-indicator of ozone impacts on forests. Ecosystem Health and Sustainability, 8: 1, doi: 10.1080/20964129.2022.2144466 

  16. De Marco, A.*, Sicard, P., Feng, Z., Agathokleous, E., Alonso, R., Araminiene, V., Augustatis, A., Badea, O., Beasley, J.C., Branquinho, C., Bruckman, V.J., Collalti, A., David‐Schwartz, R., Domingos, M., Du, E., Garcia Gomez, H., Hashimoto, S., Hoshika, Y.,  Jakovljevic, T., McNulty, S., Oksanen, E., Omidi Khaniabadi, Y., Prescher, A-K., Saitanis, C.J., Sase, H., Schmitz, A., Voigt, G., Watanabe, M., Wood, M.D., Kozlov, M.V. and Paoletti E. (2022). Strategic roadmap to assess forest vulnerability under air pollution and climate change. Global Change Biology, 28 (17): 5062-5085. doi: 10.1111/gcb.16278

  17. Hoshika, Y.*,  Paoletti, E., Centritto, M., Gomes, M.T.G., Puértolas, J. and Haworth, M. (2022). Species-specific variation of photosynthesis and mesophyll conductance to ozone and drought in three Mediterranean oaks. Physiologia Plantarum, 174 (1): e13639. doi: 10.1111/ppl.13639

  18. Moura, B.B.,  Paoletti, E.*, Badea, O., Ferrini, F. and Hoshika, Y. (2022). Visible foliar injury and ecophysiological responses to ozone and drought in oak seedlings. Plants, 11: 1836. doi: 10.3390/plants11141836

  19. Hoshika, Y.,  Cotrozzi, L.*, Marchica, A., Carrari, E., Lorenzini, G., Nali, C., Paoletti, E. and Pellegrini, E. (2022). Season-long exposure of bilberry plants to realistic and future ozone pollution improves the nutraceutical quality of fruits. Science of the Total Environment, 822: 153577. doi: 10.1016/j.scitotenv.2022.153577

  20. Paoletti, E.*, Sicard, P.,  Hoshika, Y.,  Fares, S., Badea, O., Pitar, D., Popa, I., Anav, A., Moura, B.B. and De Marco, A. (2022). Towards long-term sustainability of stomatal ozone flux monitoring at forest sites. Sustainable Horizons, 2: 100018. doi: 10.1016/j.horiz.2022.100018

  21. Arab, L.*, Hoshika, Y.,  Müller, H., Cotrozzi, L., Nali, C., Tonelli, M., Ache, P., Paoletti, E., Alfarraj, S., Albasher, G., Hedrich, R. and Rennenberg H. (2022). Chronic ozone exposure preferentially modifies root rather than foliar metabolism of date palm (Phoenix dactylifera) saplings. Science of the Total Environment, 806: 150563. doi: 10.1016/j.scitotenv.2021.150563

  22. Carrari, E., De Marco, A.*, Laschi, A., Badea, O., Dalstein-Richer, L., Fares, S.,  Leca, S., Marchi, E., Sicard, P., Popa, I., Hoshika, Y.,  Materassi, A., Pallante, G., Pitar, D. and Paoletti, E. (2021). Economic and Life Cycle Analysis of Passive and Active Monitoring of Ozone for Forest Protection. Environments, 8: 104. doi: 10.3390/environments8100104

  23. Pellegrini, E., Cotrozzi, L.*, Neri, L., Baraldi, R., Carrari, E., Nali, C., Lorenzini, G., Paoletti, E. and Hoshika, Y. (2021). Stress markers and physiochemical responses of the Mediterranean shrub Phillyrea angustifolia under current and future drought and ozone scenarios. Environmental Research, 201: 111615. doi: 10.1016/j.envres.2021.111615

  24. Moura, B.B.*, Brunetti, C., da Silva Engela, M.R.G., Hoshika, Y., Paoletti, E. and Ferrini, F. (2021). Experimental assessment of ozone risk on ecotypes of the tropical tree Moringa oleiferaEnvironmental Research, 201: 111475. doi: 10.1016/j.envres.2021.111475

  25. Conte, A., Otu-Larbi, F., Alivernini, A., Hoshika, Y., Paoletti, E., Ashworth, K. and Fares, S.* (2021). Exploring new strategies for ozone-risk assessment: a dynamic-threshold case study. Environmental Pollution, 287: 117620. doi: 10.1016/j.envpol.2021.117620

  26. Sicard, P.*, Hoshika, Y., Carrari, E., De Marco, A. and Paoletti, E. (2021). Testing visible ozone injury within a Light Exposed Sampling Site as a proxy for ozone risk assessment for European forests. Journal of Forestry Research, 32: 1351-1359. doi: 10.1007/s11676-021-01327-7

  27. Feng, Z.*, Agathokleous, E., Yue, X., Oksanen, E., Paoletti, E., Sase, H., Gandin, A., Koike, T., Calatayud, V., Yuan, X., Liu, X., De Marco, A., Jolivet, Y., Kontunen-Soppela, S., Hoshika, Y., Saji, H., Li, P., Li, Z., Watanabe, M. and Kobayashi, K. (2021). Emerging challenges of ozone impacts on asian plants: actions are needed to protect ecosystem health. Ecosystem Health and Sustainability, 7: 1911602. doi: 10.1080/20964129.2021.1911602

  28. Mrak, T.*, Dovč, N., Gričar, J., Hoshika, Y., Paoletti, E. and Kraigher, H. (2021). Poplar root anatomy after exposure to elevated O3 in combination with nitrogen and phosphorus. Trees, 35: 1233-1245. doi: 10.1007/s00468-021-02111-0

  29. Paoletti, E., Hoshika, Y.*, Arab, L., Martini, S., Cotrozzi, L., Weber, D., Ache, P., Neri, L., Baraldi, R., Pellegrini, E., Müller, H.M., Hedrich, R., Alfarraj, S. and Rennenberg, H. (2021). Date palm responses to a chronic, realistic ozone exposure in a FACE experiment. Environmental Research, 195: 110868. doi: 10.110.1016/j.envres.2021.110868

  30. da Silva Engela, MRG.*, Furlan, C.M., Esposito, M.P., Fernandes, F.F., Carrari, E., Domingos, M., Paoletti, E., Hoshika, Y. (2021). Metabolic and physiological alterations indicate that the tropical broadleaf tree Eugenia uniflora L. is sensitive to ozone. Science of the Total Environment, 769: 145080. doi: 10.1016/j.scitotenv.2021.145080

  31. Sacchelli, S., Carrari, E., Paoletti, E.*, Anav, A., Hoshika, Y., Sicard, P., Screpanti, A., Chirici, G., Cocozza, C. and De Marco, A. (2021). Economic impacts of ambient ozone pollution on wood production in Italy. Scientific Reports, 11: 154. doi: 10.1038/s41598-020-80516-6

  32. Hoshika, Y.*, Brilli, F., Baraldi, R., Fares, S., Carrari, E., Zhang, L., Badea, O. and Paoletti, E. (2020) Ozone impairs the response of isoprene emission to foliar nitrogen and phosphorus in poplar. Environmental Pollution, 267: 115679. doi:10.1016/j.envpol.2020.115679

  33. Hoshika, Y.*, Haworth, M., Watanabe, M. and Koike, T. (2020) Interactive effect of leaf age and ozone on mesophyll conductance in Siebold's beech. Physiologia Plantarum, 170: 172-186. doi:10.1111/ppl.13121

  34. Cotrozzi, L.*, Lorenzini, G., Nali, C., Pellegrini, E., Saponaro, V., Hoshika, Y.,  Arab, L., Rennenberg, H. and Paoletti, Y. (2020) Hyperspectral reflectance of light-adapted leaves can predict both dark- and light-adapted Chl fluorescence parameters, and the effects of chronic ozone exposure on date Palm (Phoenix dactylifera). International Journal of Molecular Sciences, 21: 6441.

  35. Cocozza, C.*, Paoletti, E., Mrak, T., Zavadlav, S., Levanič, T., Kraigher, H., Giovannelli, A. and Hoshika, Y. (2020) Isotopic and water relation responses to ozone and water stress in three oak species with different adaptation strategies. Forests, 11: 864.

  36. Sicard, P.*, De Marco, A., Carrari, E., Dalstein-Richiter, L.,  Hoshika, Y., Badea, O., Pitar, D., Fares, S., Conte, A., Popa, I. and Paoletti, E. (2020) Epidemiological derivation of flux-based critical levels for visible ozone injury in European forests. Journal of Forestry Research, 31: 1509-1519. doi:10.1007/s11676-020-01191-x

  37. Moreira, X.*, Abdala-Roberts, L., Galmán, A., Bartlow, A.W., Berny-Mier, T.J., Carrari, E., Covelo, F., de la Fuente, M., Ferrenberg, S., Fyllas, N., Hoshika, Y., Lee, S., Marquis, R., Nakamura, M., Nell, C., Pesendorfer, M., Steele, M., Vázquez-González, C., Zhang, S. and Rasmann, S. (2020) Ontogenetic consistency in oak defence syndromes. Journal of Ecology, 108: 1822-1834.  doi:10.1111/1365-2745.13376

  38. Mrak, T.*, Eler, K., Badea, O., Hoshika, Y., Carrari, E., Paoletti, E. and Kraigher, H. (2020) Elevated ozone prevents acquisition of available N due to smaller root surface area in poplar. Plant and Soil, 450: 585-599.

  39. Hoshika, Y., Paoletti, E.*, Agathokleous, E., Sugai, T. and Koike, T. (2020) Developing ozone risk assessment for larch species. Frontiers in Forests and Global Change, 3: 45.

  40. Hoshika, Y.*, Fares, S., Pellegrini, E., Conte, A. and Paoletti, E. (2020) Water use strategy affects avoidance of ozone stress by stomatal closure in Mediterranean trees –A modelling analysis–. Plant, Cell and Environment, 43: 611-623. doi: 10.1111/pce.13700

  41. Mariotti, B., Hoshika, Y.*, Cambi, M., Marra, E., Feng, Z., Paoletti, E. and Marchi, E. (2020) Vehicle-induced compaction of forest soil affects plant morphological and physiological attributes: A meta-analysis. Forest Ecology and Management, 462: 118004.

  42. Hoshika, Y.*, Carrari, E., Mariotti, B., Martini, S., De Marco, A., Sicard, P. and Paoletti, E. (2020) Flux-based ozone risk assessment for a Plant Injury Index (PII) in three European cool-temperate deciduous tree species. Forests, 11: 82.

  43. Vitale, M.*, Amitrano, E., Hoshika, Y. and Paoletti, E. (2019) Plant species-specific litter decomposition rates are directly affected by tropospheric ozone: analysis of trends and modelling. Water, Air and Soil Pollution, 230: 311.

  44. Hoshika, Y.*, De Carlo, A., Baraldi, R., Neri, L., Carrari, E., Agathokleous, E., Zhang, L., Fares, S., Paoletti, E. (2019) Ozone-induced impairment of night-time stomatal closure in O3-sensitive poplar clone is affected by nitrogen but not by phosphorus enrichment. Science of the Total Environment, 692: 713-722.

  45. Paoletti, E., Alivernini, A., Anav, A., Badea, O., Carrari, E.*, Chivulescu, S., Conte, A., Ciriani, M.L., Dalstein-Richier, L., De Marco, A., Fares, S., Fasano, G., Giovanelli, A., Lazzara, M., Leca, S., Materassi, A., Moretti, V., Pitar, D., Popa, I., Sabatini, F., Salvati, L., Sicard, P., Sorgi, T. and Hoshika, Y. (2019) Toward stomatal–flux based forest protection against ozone: The MOTTLES approach. Science of the Total Environment, 691: 516-527.

  46. Giovannelli, A.*, Traversi, M.L., Anichini, M., Hoshika, Y., Fares, S., and Paoletti, E. (2019) Effect of long-term vs. short-term ambient ozone exposure on radial stem growth, sap flux and xylem morphology of O3-sensitive poplar trees. Forests, 10: 396.

  47. Agathokleous, E.*, Araminiene, V., Belz, R.G., Calatayud, V., De Marco, A., Domingos, M., Feng, Z., Hoshika, Y., Kitao, M., Koike, T., Paoletti, E., Saitanis, C.J., Sicard, P. and Calabrese, E.J. (2019) A quantitative assessment of hormetic responses of plants to ozone. Environmental Research, 176: 108527.

  48. Feng, Z.*, Yuan, X., Fares, S., Loreto, F., Li, P., Hoshika, Y., Paoletti, E. (2019) Isoprene is more affected by climate drivers than monoterpenes: a meta‐analytic review on plant isoprenoid emissions. Plant, Cell and Environment, 42: 1939-1949.

  49. Podda, S., Pisuttu, C., Hoshika, Y., Pellegrini, E.*, Carrari, E., Lorenzini, G., Nali, C., Cotrozzi, L., Zhang, L., Baraldi, R., Neri, L. and Paoletti, E. (2019) Can nutrient fertilization mitigate the effects of ozone exposure on an ozone-sensitive poplar clone? Science of the Total Environment, 657: 340-350.

  50. Fernandes, F.F.*, Esposito, M.P., Engela, M.R.G., Cardoso-Gustavson, P., Furlan, C.M., Hoshika, Y., Carrari, E., Magni, G., Domingos, M. and Paoletti, E. (2019) The passion fruit liana (Passiflora edulis Sims, Passifloraceae) is tolerant to ozone. Science of the Total Environment, 656: 1091-1101.

  51. Calzone, A., Podda, A., Lorenzini, G., Maserti, B.E., Carrari, E., Deleanu, E., Hoshika, Y., Haworth, M., Nali, C., Badea, O., Pellegrini, E.*, Fares, S. and Paoletti, E. (2019) Cross-talk between physiological and biochemical adjustments by Punica granatum cv. Dente di cavallo mitigates the effects of salinity and ozone stress. Science of the Total Environment, 656: 589-597.

  52. Mrak, T.*, Štraus, I., ,Grebenc, T., Gričar, J., Hoshika, Y., Carriero, G., Paoletti, E. and Kraigher, H. (2019) Different below ground responses to elevated ozone and soil water deficit in three European oak species (Quercus ilex, Q. pubescens and Q. robur). Science of the Total Environment, 651: 1310-1320.

  53. Agathokleous, E.*, Belz, R.G., Calatayud, V., De Marco, A., Hoshika, Y., Kitao, M., Saitanis, C.J., Sicard, P., Paoletti, E. and Calabrese, E.J. (2019) Predicting the effect of ozone on vegetation via the linear non-threshold (LNT), threshold and hormetic dose-response models. Science of the Total Environment, 649: 61-74.

  54. Pellegrini, E., Hoshika, Y., Dusart, N., Cotrozzi, L., Gérard, J., Nali, C.*, Vaultier, M-N., Jolivet, Y., Lorenzini, G. and Paoletti, E. (2019) Antioxidative responses of three oak species under ozone and water stress conditions. Science of the Total Environment, 647: 390-399.

  55. Zhang, L., Hoshika, Y.*, Carrari, E., Cotrozzi, L., Pellegrini, E. and Paoletti, E. (2018) Effects of nitrogen and phosphorus imbalance on photosynthetic traits of poplar Oxford clone under ozone pollution Journal of Plant Research, 131: 915-924.

  56. Sicard, P.*, Agathokleous, E., Araminiene, V., Carrari, E., Hoshika, Y., De Marco, A. and Paoletti, E. (2018) Should we see urban trees as effective solutions to reduce increasing ozone levels in cities? Environmental Pollution, 243: 163-176.

  57. Gustafson, E.J.*, Kubiske, M.E., Miranda, B.R., Hoshika, Y. and Paoletti, E. (2018) Extrapolating plot-scale CO2 and ozone enrichment experimental results to novel conditions and scales using mechanistic modeling. Ecological Processes, 7: 31.

  58. Hoshika, Y.*, Osada, Y., De Marco, A., Penuelas, J. and Paoletti, E. (2018) Global diurnal and nocturnal parameters of stomatal conductance in woody plants and major crops. Global Ecology and Biogeography, 27: 257-275.

  59. Hoshika, Y.*, Watanabe, M., Carrari, E., Paoletti, E. and Koike, T.* (2018) Ozone-induced stomatal sluggishness changes stomatal parameters of Jarvis-type model in white birch and deciduous oak. Plant Biology, 20: 20-28.

  60. Moura, B.B., Hoshika, Y., Silveira, N.M., Marcos, F.C.C., Machado, E.C., Paoletti, E.* and Ribeiro, R.V.* (2018) Physiological and biochemical responses of two sugarcane genotypes growing under free-air ozone exposure. Environmental and Experimental Botany, 153: 72-79.

  61. Watanabe, M., Hoshika, Y., Inada, N. and Koike, T.* (2018) Photosynthetic activity in relation to a gradient of leaf nitrogen content within a canopy of Siebold's beech and Japanese oak saplings under elevated ozone. Science of the Total Environment, 636: 1455-1462.

  62. Moura, B.B.*, Hoshika, Y., Ribeiro, R.V. and Paoletti, E. (2018) Exposure- and flux-based assessment of ozone risk to sugarcane plants. Atmospheric Environment, 176: 252-260.

  63. Hoshika, Y.*, Carrari, E., Zhang, L., Carriero, G., Pignatelli, S., Fasano, G., Materassi, A. and Paoletti, E. (2018) Testing a ratio of photosynthesis to O3 uptake as an index for assessing O3-induced foliar visible injury in poplar trees. Environmental Science and Pollution Research, 25: 8113-8124.

  64. Hoshika, Y., Moura, B. and Paoletti, E.* (2018) Ozone risk assessment in three oak species as affected by soil water availability. Environmental Science and Pollution Research, 25: 8125-8136.

  65. Zhang, L., Hoshika, Y.*, Carrari, E., Badea, O. and Paoletti, E. (2018) Ozone risk assessment is affected by nutrient availability: Evidence from a simulation experiment under free air controlled exposure (FACE). Environmental Pollution, 238: 812-822.

  66. Zhang, L.*, Hoshika, Y., Carrari, E., Burkey, K.O. and Paoletti, E. (2018) Protecting the photosynthetic performance of snap bean under free air ozone exposure. Journal of Environmental Sciences, 66: 31-40.

  67. Gao, F., Catalayud, V., Paoletti, E., Hoshika, Y. and Feng, Z.* (2017) Water stress mitigates the negative effects of ozone on photosynthesis and biomass in poplar plants. Environmental Pollution, 230: 268-279.

  68. Hoshika, Y., Fares, S.*, Savi, F., Gruening, C., Goded, I., De Marco, A., Sicard, P. and Paoletti, E. (2017) Stomatal conductance models for ozone risk assessment at canopy level in Mediterranean evergreen forests. Agricultural and Forest Meteorology, 234: 212-221.

  69. Cambi, M., Hoshika, Y.*, Mariotti, B., Paoletti, E., Picchio, R., Venanzi, R. and Marchi, E. (2017) Compaction by a forest machine affects soil quality and Quercus robur L. seedling performance in an experimental field. Forest Ecology and Management, 384: 406-414.

  70. Paoletti, E.*, Materassi, A., Fasano, G., Hoshika, Y., Carriero, G., Silaghi, D. and Badea, O. (2017) A new-generation 3D ozone FACE (Free Air Controlled Exposure). Science of the Total Environment, 575: 1407-1414.

  71. Hoshika, Y., De Marco, A., Materassi, A. and Paoletti, E.* (2016) Light intensity affects ozone-induced stomatal sluggishness in snapbean. Water, Air, and Soil Pollution, 227: 419.

  72. Duarte, A.G., Katata, G., Hoshika, Y., Hossain, M., Kreuzwieser, J., Arneth, A. and Ruehr, N.K.* (2016) Immediate and potential long-term effects of consecutive heat waves on the photosynthetic performance and water-balance in Douglas-fir. Journal of Plant Physiology, 205: 57-66.

  73. Haworth, M.*, Hoshika, Y. and Killi, D. (2016) Has the impact of rising CO2 on plants been exaggerated by meta-analysis of free-air CO2 enrichment studies? Frontiers in Plant Science, 7: 1153.

  74. Carriero, G., Brunetti, C., Fares, S., Hayes, F., Hoshika, Y., Mills, G., Tattini, M. and Paoletti, E.* (2016) BVOC responses to realistic nitrogen fertilization and ozone exposure in silver birch. Environmental Pollution, 231: 988-995.

  75. Carriero, G., Emiliani, G., Giovanelli, A., Hoshika, Y., Manning, W.J., Traversi, M.L. and Paoletti, E.* (2015) Effects of long-term ambient ozone exposure on biomass and wood traits in poplar treated with ethylenediurea (EDU). Environmental Pollution, 206: 575-581.

  76. Watanabe, M., Hoshika, Y., Inada, N. and Koike, T.* (2015) Difference in photosynthetic responses to free air ozone fumigation between upper and lower canopy leaves of Japanese oak (Quercus monglica var. crispula) saplings. Journal of Agricultural Meteorology, 71: 227-231.

  77. Hoshika, Y., Watanabe, M., Inada, N. and Koike, T.* (2015) Effects of ozone-induced stomatal closure on ozone uptake and its changes due to leaf age in sun and shade leaves of Siebold’s beech. Journal of Agricultural Meteorology, 71: 218-226.

  78. Hoshika, Y., Katata, G., Deushi, M., Watanabe, M., Koike, T. and Paoletti, E.* (2015) Ozone-induced stomatal sluggishness changes carbon and water balance of temperate deciduous forests. Scientific Reports, 5: 9871.

  79. Agathokleous, E., Koike, T.*, Watanabe, M., Hoshika, Y. and Saitanis, C. (2015) Ethylene-di-urea (EDU), an effective phytoproctectant against O3 deleterious effects and a valuable research tool. Journal of Agricultural Meteorology, 71: 185-195.

  80. Hoshika, Y., Watanabe, M., Kitao, M., Haberle, K-H., Grams, T.E.E., Koike, T.* and Matyssek, R.* (2015) Ozone induces stomatal narrowing in European and Siebold's beeches: a comparison between two experiments of free-air ozone exposure. Environmental Pollution, 196: 527-533.

  81. Wang, X., Qu, L., Mao, Q., Kawaguchi, K., Watanabe, M., Hoshika, Y., Koyama, A., Tamai, Y. and Koike, T.* (2015) Ectomycorrhizal species richness and growth of the hybrid larch F1 under elevated O3 and CO2. Environmental Pollution, 197: 116-126.

  82. Hoshika, Y., Carriero, G., Feng, Z., Zhang, Y. and Paoletti, E.* (2014) Determinants of stomatal sluggishness in ozone-exposed deciduous tree species. Science of the Total Environment, 481: 453-458.

  83. Watanabe, M., Hoshika, Y. and Koike, T.* (2014) Photosynthetic responses of Monarch birch seedlings to different timing of free air ozone fumigation. Journal of Plant Research, 127: 339-345.

  84. Watanabe, M., Hoshika, Y., Inada, N. and Koike, T.* (2014) Canopy carbon budget of Siebold's beech Fagus crenata sapling under free air ozone exposure. Environmental Pollution, 184: 682-689.

  85. Kitao, M.*, Komatsu, M., Hoshika, Y., Yazaki, K., Yoshimura, K., Fujii, F., Miyama, T. and Kominami, Y. (2014) Seasonal ozone uptake by a warm-temperate mixed deciduous and evergreen broadleaf forest in western Japan estimated by the Penman-Monteith approach combined with a photosynthesis dependent stomatal model. Environmental Pollution, 184: 457-463.

  86. Hoshika, Y., Watanabe, M., Inada, N. and Koike, T.* (2013) Model-based analysis of avoidance of ozone stress by stomatal closure in Siebold’s beech (Fagus crenata). Annals of Botany, 112: 1149-1158. doi: 10.1093/aob/mct166.

  87. Hoshika, Y., Watanabe, M., Inada, N., Mao, Q. and Koike, T.* (2013) Photosynthetic response of early and late leaves of white birch (Betula platyphylla var. japonica) grown under free-air ozone exposure. Environmental Pollution, 182: 242-247.

  88. Watanabe, M., Hoshika, Y., Inada, N., Wang, X., Mao, Q. and Koike, T.* (2013) Photosynthetic traits of Siebold’s beech and oak saplings grown under free air ozone exposure. Environmental Pollution 174: 50-56.

  89. Hoshika, Y., Tatsuda, S., Watanabe, M., Wang, X., Watanabe, Y., Saito, H., and Koike, T.* (2013) Effect of ambient ozone at the somma of Lake Mashu on growth and leaf gas exchange in Betula ermanii and B. platyphylla var. japonica. Environmental and Experimental Botany 90: 12-16.

  90. Hoshika, Y., Pecori, F., Conese, I., Bardelli, T., Marchi, E., Manning, W.J., Badea, O. and Paoletti, E.* (2013) Effects of a three-year exposure to ambient ozone on biomass allocation in poplar using ethylenediurea. Environmental Pollution, 180, 299-303.44.

  91. Hoshika, Y., Omasa, K., and Paoletti, E.* (2013) Both ozone exposure and soil water stress are able to induce stomatal sluggishness. Environmental and Experimental Botany 88: 19-23.

  92. Hoshika, Y., Watanabe, M., Inada, N., and Koike, T.* (2012) Growth and leaf gas exchange in three birch species exposed to elevated ozone and CO2 in summer. Water, Air, and Soil Pollution 223: 5017-5025.

  93. Hoshika, Y., Wanatabe, M., Inada, N. and Koike, T.* (2012) Modeling of stomatal conductance for estimating ozone uptake of Fagus crenata under experimentally enhanced free-air ozone exposure. Water, Air, and Soil Pollution 223: 3893-3901.

  94. Hoshika, Y., Omasa, K., and Paoletti, E.* (2012) Whole-tree water use efficiency is decreased by ambient ozone and not affected by O3-induced stomatal sluggishness. Plos One 7(6): e39270.

  95. Hoshika, Y., Paoletti, E. and Omasa, K.* (2012) Parameterization of Zelkova serrata stomatal conductance model to estimate stomatal ozone uptake in Japan. Atmospheric Environment 55: 271-278.

  96. Hoshika, Y., Wanatabe, M., Inada, N. and Koike, T.* (2012) Ozone-induced stomatal sluggishness develops progressively in Siebold's beech (Fagus crenata). Environmental Pollution 166: 152-156.

  97. Hoshika, Y., Shimizu, Y. and Omasa, K.* (2011) A comparison between stomatal ozone uptake and AOT40 of deciduous trees in Japan. I-forest - Biogeosciences and Forestry 4: 128-135. DOI: 10.3832/ifor0573-004.

  98. Hoshika, Y., Hajima, T., Shimizu, Y., Takigawa, M. and Omasa, K.* (2011) Estimation of stomatal ozone uptake of deciduous trees in East Asia. Annals of Forest Science 68: 607-616.

  99. Hoshika, Y., Hajima, T., Shimizu, Y. and Omasa, K.* (2007) A comparison of estimated net primary productivity between under the current forest vegetation and under the potential natural vegetation in Japan. Journal of Agricultural Meteorology 63: 33-39.

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-Preface

  1. Watanabe, M., Hoshika, Y. and Koike, T. (2024) Physiological ecology of woody species under changing environments. Journal of Forest Research 29:1–2.

  2. Paoletti, E., Feng, Z., De Marco, A., Hoshika, Y., Harmens, H., Agathokleous, E., Domingos, M., Mills, G., Sicard, P., Zhang, L. and Carrari, E. (2020) Challenges, gaps and opportunities in investigating the interactions of ozone pollution and plant ecosystems. Science of the Total Environment 709:136188.

  3. Hoshika, Y. and Koike, T. (2018) Physiological ecology of woody species in response to air pollution and climate changes. Journal of Plant Research 131:895–896.

-Book chapters

  1. Agathokleous, E., Araminiene, V., Feng, Z.Z., Hoshika, Y., Yu, G.C., Xu, J., Xu, Z.Y., Zhou B., Saitanis, C.J., Sicard, P. and Paoletti, E. (2021) Protecting Plants against Ozone Toxicity by Applying Ethylenediurea: An Update. In "Tropospheric Ozone -A Hazard for Vegetation and Human Health-" (Agrawal, S.B., Agrawal, M., Singh, A. eds.),Cambridge Scholars publishing, Newcastle, UK, pp 277-306.

  2. Watanabe, M., Agathokleous, E., Anav, A., Araminiene, V., Carrari, E., De Marco, A., Hoshika, Y., Proietti, C., Sicard, P. and Paoletti, E. (2021) Impacts of Ozone on the Ecophysiology of Forest Tree Species. In "Tropospheric Ozone -A Hazard for Vegetation and Human Health-" (Agrawal, S.B., Agrawal, M., Singh, A. eds.),Cambridge Scholars publishing, Newcastle, UK, pp 277-306.

  3. Sicard, P., Agathokleous, E., Anav, A., Araminiene, V., Carrari, E., De Marco, A., Hoshika, Y., Paoletti, E. and Proietti, C. (2021) Tropospheric Ozone, Formation, Distribution, and Trends Overtime. In "Tropospheric Ozone -A Hazard for Vegetation and Human Health-" (Agrawal, S.B., Agrawal, M., Singh, A. eds.),Cambridge Scholars publishing, Newcastle, UK, pp 102-127.

  4. Hoshika, Y. (2020) Leaf Conductance. In "Physiological Ecology for Woody Plants" (Koike, T.,  Kitao, M., Ichiei, T., Watanabe, M. eds.),Kyoritsu Shuppan Co., Ltd., Tokyo, Japan, pp 33-34. (in Japanese)

  5. Watanabe, M., Hoshika, Y., Koike, T. and Izuta, T. (2017) Effects of ozone on Japanese trees. In "Air Pollution Impacts on Plants in East Asia",Springer, Tokyo, Japan, pp 73-100.

  6. Hoshika, Y. and Omasa, K. (2015) Modeling of stomatal ozone uptake for assessing ozone effects on plants. In "Eco-engineering handbook vol.7" (Biophilia Extra),Adthree publishing Co., Ltd.,Tokyo, Japan, pp 2-5.(in Japanese)

  7. Koike, T., Watanabe, M., Hoshika, Y., Kitao, M., Matsumura, H., Funada, R. and Izuta, T. (2013) Effects of ozone on forest ecosystems in East and Southeast Asia. (Matyssek, R., Clarke, N., Cudlin, P., Mikkelsen, T.N., Tuovinen, J.-P., Wieser, G. and Paoletti, E., eds.), Climate Change, Air Pollution and Global Challenges: Understanding and Solutions from Forest Research, Elsevier, pp 371-390.

  8. Hoshika, Y. (2012) Role of stomata. In "Meteorology and Agriculture in Hokkaido" (Japanese Society for Agricultural Meteorology in Hokkaido eds.),The Hokkaido Shimbun press,Sapporo, Japan, pp 142-144.(in Japanese)

-Other papers
Non-ISI journal

  1. Manzini, J., Hoshika, Y., Moura, B.B. and Paoletti, E.* (2022) Impatto dell’ozono troposferico sulle foreste italiane: il progetto MOTTLES. L'Italia Forestale e Montana, 77 (5): 185-195.

  2. 稲田直輝, 星加康智, 渡辺 誠, 小池孝良 (2013) ブナの陽樹冠と陰樹冠へのオゾン影響解明~開放系オゾン暴露実験による解析. 北方森林研究, 61, 49-50.

  3. 渡辺誠, 星加康智, 小池孝良 (2013) 異なる時期のオゾン付加に対するウダイカンバ苗の成長・光合成応答. 北方森林研究, 61, 37-40.

  4. 王暁娜, 毛巧芝, 甘烔圭, 渡辺誠, 星加康智, 小池孝良 (2013) カラマツ属樹木に対する対流圏オゾンの影響評価の現状と課題. 北海道の農業気象. 65: 49-57.

  5. 川口光倫, 星加康智, 渡辺誠, 小池孝良 (2013) カンバ類へのオゾンの影響 -メカニズム解明とフィールド観察をつなげる-. 北方林業. 65: 73-75.

  6. 渡辺誠, 星加康智, 小池孝良 (2013) 開放系付加施設を利用した異なる時期のオゾン付加に対するウダイカンバの光合成応答. 北方林業. 65: 76-79.

  7. Mao, Q., Hoshika, Y., Watanabe, M., and Koike, T. (2012) Symptom of ozone injured leaves in 3 kinds of birch species in Hokkaido. Boreal Forest Research 60: 35-38.

  8. Koike, T., Mao, Q., Inada, N., Kawaguchi, K., Hoshika, Y., Kita, K., and Wanatabe, M.* (2012) Growth and photosynthetic responses of hybrid larch (Larix gmelinii var. japonica x L. kaempferi) cuttings to elevated ozone and/or carbon dioxide. Asian Journal of Atmospheric Environment 6(2): 104-110.

  9. Kawaguchi, K., Hoshika, Y., Watanabe, M. and Koike, T.* (2012) Ecophysiological responses of northern birch forests to the changing atmospheric CO2 and O3 concentration. Asian Journal of Atmospheric Environment. 6: 192-205.

  10. 稲田直輝, 星加康智, 渡辺誠, 小池孝良 (2012) 開放系暴露装置によるブナとシラカンバの光合成機能へのオゾンの影響. 北方森林研究 60: 31-32.

  11. 原悠子, 伊藤寛剛, 毛 巧芝, 渡辺誠, 星加康智, 高木健太郎, 斉藤秀之, 澁谷正人, 小池孝良 (2012) 開放系大気CO2増加施設で育成したカンバ類3種のシュートの動態 -CO2付加2年目の効果-. 北方森林研究 60: 39-40.

  12. 星加康智, 毛巧芝, 稲田直輝, 王暁娜, 川口光倫, 渡辺誠, 小池孝良 (2012) 日本の冷温帯落葉樹を対象としたオゾンの影響評価に関する新たな取り組み, 北海道の農業気象. 64: 13-22.

  13. 王暁娜,龍田慎平,渡辺誠,星加康智,小池孝良 (2012) ダケカンバ衰退木と根の活動 ‐外生菌根菌の役割‐. 北方林業. 64: 170-172.

  14. 星加康智 (2012) オゾン吸収量によるブナへのオゾン影響評価のこころみ. 北方林業. 64: 50-51.

  15. 小池孝良,毛巧芝,渡辺誠,稲田直輝,川口光倫,星加康智 (2011) 北海道の森林を対象にしたオゾン影響解明の展望, 北海道の農業気象. 63: 17-23.

  16. 星加康智, 清水庸, 大政謙次 (2011) 空間情報を用いた対流圏オゾンの植生影響評価法, 遺伝. 裳華房. 65 (2): 58-64.

  17. 星加康智, 羽島知洋, 清水庸, 滝川雅之, 大政謙次 (2009) 東アジア域における落葉広葉樹林を対象としたオゾン吸収量推定に関する成長期間の影響. 生態工学会誌 21: 3-8.

  18. 星加康智 (2008) 熱帯雨林は生物圏と大気環境のバランスを維持している, 遺伝. 裳華房. 62 (6): 117-118.

Others

  1. 小池孝良,毛巧芝,渡辺誠,星加康智 (2014) 森林研究機関連合(IUFRO-07関連)集会 -大気変動環境と森林動態に関する国際会議-, 北方林業. 66: 40-43.

  2. 渡辺誠・星加康智・小池孝良 (2012) 国際会議「気候変動と大気汚染に対する森林の生物学的応答」に参加して, 北方林業 64: 366-369.

  3. 星加康智 (2011) 海外短期留学報告:イタリアでの研究生活, 北海道の農業気象. 63: 28-31.

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