Effects of increased solar ultraviolet-radiation on terrestrial plants
(1995) In Ambio: a Journal of the Human Environment 24(3). p.166-173- Abstract
- Physiological and developmental processes of plants are affected by UV-B radiation, even by the amount of UV-B in present-day sunlight. Plants also have several mechanisms to ameliorate or repair these effects and may acclimate to a certain extent to increased levels of UV-B. Nevertheless, plant growth can be directly affected by UV-B radiation. Response to UV-B also varies considerably among species and also cultivars of the same species. In agriculture, this may necessitate using more UV-B-tolerant cultivars and breeding new ones. In forests and grasslands, this will likely result in changes in species composition; therefore there are implications for the biodiversity in different ecosystems. Indirect changes caused by UV-B-such as... (More)
- Physiological and developmental processes of plants are affected by UV-B radiation, even by the amount of UV-B in present-day sunlight. Plants also have several mechanisms to ameliorate or repair these effects and may acclimate to a certain extent to increased levels of UV-B. Nevertheless, plant growth can be directly affected by UV-B radiation. Response to UV-B also varies considerably among species and also cultivars of the same species. In agriculture, this may necessitate using more UV-B-tolerant cultivars and breeding new ones. In forests and grasslands, this will likely result in changes in species composition; therefore there are implications for the biodiversity in different ecosystems. Indirect changes caused by UV-B-such as changes in plant form, biomass allocation to parts of the plant, timing of developmental phases and secondary metabolism-may be equally, or sometimes more important than damaging effects of UV-B. These changes can have important implications for plant competitive balance, herbivory, plant pathogens, and biogeochemical cycles. These ecosystem-level effects can be anticipated, but not easily predicted or evaluated. Research at the ecosystem level for solar UV-B is barely beginning. Other factors, including those involved in climate change such as increasing CO2, also interact with UV-B. Such reactions are not easily predicted, but are of obvious importance in both agriculture and in nonagricultural ecosystems (Less)
Please use this url to cite or link to this publication:
https://lup.lub.lu.se/record/134513
- author
- Caldwell, M ; Teramura, A H ; Tevini, M ; Bornman, Janet LU ; Björn, Lars Olof LU and Kulandaivelu, G
- organization
- publishing date
- 1995
- type
- Contribution to journal
- publication status
- published
- subject
- in
- Ambio: a Journal of the Human Environment
- volume
- 24
- issue
- 3
- pages
- 166 - 173
- publisher
- Springer
- external identifiers
-
- scopus:0028974987
- ISSN
- 0044-7447
- language
- English
- LU publication?
- yes
- id
- 63ef9e83-bb67-44ae-afbe-d2be90e6de82 (old id 134513)
- date added to LUP
- 2016-04-01 15:37:08
- date last changed
- 2024-02-26 00:58:06
@article{63ef9e83-bb67-44ae-afbe-d2be90e6de82, abstract = {{Physiological and developmental processes of plants are affected by UV-B radiation, even by the amount of UV-B in present-day sunlight. Plants also have several mechanisms to ameliorate or repair these effects and may acclimate to a certain extent to increased levels of UV-B. Nevertheless, plant growth can be directly affected by UV-B radiation. Response to UV-B also varies considerably among species and also cultivars of the same species. In agriculture, this may necessitate using more UV-B-tolerant cultivars and breeding new ones. In forests and grasslands, this will likely result in changes in species composition; therefore there are implications for the biodiversity in different ecosystems. Indirect changes caused by UV-B-such as changes in plant form, biomass allocation to parts of the plant, timing of developmental phases and secondary metabolism-may be equally, or sometimes more important than damaging effects of UV-B. These changes can have important implications for plant competitive balance, herbivory, plant pathogens, and biogeochemical cycles. These ecosystem-level effects can be anticipated, but not easily predicted or evaluated. Research at the ecosystem level for solar UV-B is barely beginning. Other factors, including those involved in climate change such as increasing CO2, also interact with UV-B. Such reactions are not easily predicted, but are of obvious importance in both agriculture and in nonagricultural ecosystems}}, author = {{Caldwell, M and Teramura, A H and Tevini, M and Bornman, Janet and Björn, Lars Olof and Kulandaivelu, G}}, issn = {{0044-7447}}, language = {{eng}}, number = {{3}}, pages = {{166--173}}, publisher = {{Springer}}, series = {{Ambio: a Journal of the Human Environment}}, title = {{Effects of increased solar ultraviolet-radiation on terrestrial plants}}, volume = {{24}}, year = {{1995}}, }