Produzione scientifica
Found 13 results
Filtri: Autore is Hoshika, Y. [Clear All Filters]
Object-based classification of urban plant species from very high-resolution satellite imagery,
, Urban Forestry and Urban Greening, Volume 81, (2023)
Surface ozone risk to human health and vegetation in tropical region: The case of Thailand,
, Environmental Research, Volume 234, (2023)
Strategic roadmap to assess forest vulnerability under air pollution and climate change,
, Global Change Biology, Volume 28, Number 17, p.5062-5085, (2022)
Correction To: Epidemiological derivation of flux-based critical levels for visible ozone injury in European forests (Journal of Forestry Research, (2020), 31, 5, (1509-1519), 10.1007/s11676-020-01191-x),
, Journal of Forestry Research, Volume 33, Number 5, p.1703, (2021)
Economic and life cycle analysis of passive and active monitoring of ozone for forest protection,
, Environments - MDPI, Volume 8, Number 10, (2021)
Economic impacts of ambient ozone pollution on wood production in Italy,
, Scientific Reports, Volume 11, Number 1, (2021)
Emerging challenges of ozone impacts on asian plants: actions are needed to protect ecosystem health,
, Ecosystem Health and Sustainability, Volume 7, Number 1, (2021)
Epidemiological derivation of flux-based critical levels for visible ozone injury in European forests,
, JOURNAL OF FORESTRY RESEARCH, Volume 31, p.1509–1519, (2020)
Predicting the effect of ozone on vegetation via linear non-threshold (LNT), threshold and hormetic dose-response models,
, Science of the Total Environment, Volume 649, p.61-74, (2019)
A quantitative assessment of hormetic responses of plants to ozone,
, Environmental Research, Volume 176, (2019)
Toward stomatal–flux based forest protection against ozone: The MOTTLES approach,
, Science of the Total Environment, Volume 691, p.516-527, (2019)
Stomatal conductance models for ozone risk assessment at canopy level in two Mediterranean evergreen forests,
, Agricultural and Forest Meteorology, Volume 234-235, p.212-221, (2017)
Light Intensity Affects Ozone-Induced Stomatal Sluggishness in Snapbean,
, Water, Air, and Soil Pollution, Volume 227, Number 11, (2016)