Olive Oil for Dressing Plant Leaves so as to Avoid O3 Injury-Reference-Cited by-同舟云学术

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Olive Oil for Dressing Plant Leaves so as to Avoid O3 Injury

Published:2016-07-23 Issue:8 Volume:227 Page:
ISSN:0049-6979
Container-title:Water, Air, & Soil Pollution
language:en
Short-container-title:Water Air Soil Pollut

Author:

Agathokleous Evgenios^ORCID,Saitanis Costas J.,Stamatelopoulos Dimitris,Mouzaki-Paxinou Akrivi-Chara,Paoletti Elena,Manning William J.

Publisher

Springer Science and Business Media LLC

Subject

Pollution,Water Science and Technology,Ecological Modelling,Environmental Chemistry,Environmental Engineering

Link

http://link.springer.com/content/pdf/10.1007/s11270-016-2986-9.pdf

Reference78 articles.

1. Agathokleous, E., Saitanis, C. J., & Papatheohari, Y. (2014). Evaluation of di-1-p-menthene as antiozonant on Bel-W3 tobacco plants, as compared with ethylenediurea. Water Air Soil Pollution, 225, 2139.

2. Agathokleous, E., Saitanis, C. J., & Koike, T. (2015a). Tropospheric O3, the nightmare of wild plants: a review study. Journal of Agricultural Meteorology, 71, 142–152.

3. Agathokleous, E., Koike, T., Watanabe, M., Hoshika, Y., & Saitanis, C. J. (2015b). Ethylene-di-urea (EDU), an effective phytoprotectant against O3 deleterious effects and a valuable research tool. Journal of Agricultural Meteorology, 71, 185–195.

4. Agathokleous, E., Saitanis, C. J., Watanabe, M., Wang, X., & Koike, T. (2016a). A review study on past 40 years of research on effects of tropospheric O3 on belowground structure, functioning and processes of trees: a linkage with potential ecological implications. Water Air Soil Pollution, 227, 33.

5. Agathokleous, E., Watanabe, M., Nakaji, T., Wang, X., Satoh, F., & Koike, T. (2016b). Impact of elevated CO2 on root traits of a sapling community of three birches and an oak: a free-air-CO2 enrichment (FACE) in northern Japan. Trees, 30, 353–362.

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3. Ethylenediurea protects against ozone phytotoxicity not by adding nitrogen or controlling stomata in a stomata-unresponsive hybrid poplar;Science of The Total Environment;2023-06

4. Nitrogen addition changed the relationships of fine root respiration and biomass with key physiological traits in ozone-stressed poplars;Science of The Total Environment;2023-06

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