The Role of Solar Ultraviolet Radiation in Marine Ecosystems 1982
DOI: 10.1007/978-1-4684-8133-4_49
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Effects of UV Radiation on Photosynthesis of Natural Populations of Phytoplankton

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Cited by 3 publications
(3 citation statements)
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“…In spite of UVBR being often referred to as harmful, and UVA radiation (UVAR; 320–400 nm) being referred to as beneficial because of its induction of photorepair mechanisms, any portion of UVR or even visible radiation may have either deleterious or beneficial effects on certain organisms, depending on the dose absorbed by the organism and its tolerance to it. UVR with wavelengths ≥320 nm is effective in providing energy to photosynthesis (1,4,5), but only below a threshold, above which UVR decreases photosyn‐thetic rates. Several cellular components and processes can be adversely affected by UVR, including photosynthetic rates, pigments, photosystem II (PSII), electron transport, adenosine‐5′‐triphosphate synthesis, nitrogen metabolism, protein structure and functioning, nucleic acids, cell growth and division, motility and metal complexes (1).…”
Section: Introductionmentioning
confidence: 99%
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“…In spite of UVBR being often referred to as harmful, and UVA radiation (UVAR; 320–400 nm) being referred to as beneficial because of its induction of photorepair mechanisms, any portion of UVR or even visible radiation may have either deleterious or beneficial effects on certain organisms, depending on the dose absorbed by the organism and its tolerance to it. UVR with wavelengths ≥320 nm is effective in providing energy to photosynthesis (1,4,5), but only below a threshold, above which UVR decreases photosyn‐thetic rates. Several cellular components and processes can be adversely affected by UVR, including photosynthetic rates, pigments, photosystem II (PSII), electron transport, adenosine‐5′‐triphosphate synthesis, nitrogen metabolism, protein structure and functioning, nucleic acids, cell growth and division, motility and metal complexes (1).…”
Section: Introductionmentioning
confidence: 99%
“…Several cellular components and processes can be adversely affected by UVR, including photosynthetic rates, pigments, photosystem II (PSII), electron transport, adenosine‐5′‐triphosphate synthesis, nitrogen metabolism, protein structure and functioning, nucleic acids, cell growth and division, motility and metal complexes (1). In phytoplankton, these deleterious effects can be counteracted by several photoprotection mechanisms: (1) distribution and movements of organelles to minimize the absorption cross‐sectional area (6,7), as well as movement of the organism away from the source of radiation (8); (2) synthesis of screening substances, which absorb UVR (9–13); (3) absorption by pigments that dissipate the energy as heat or fluorescence (14,15); (4) synthesis of antioxidant enzymes (16–18) or accessory pigments that act as antioxidants (19–23) to protect the cell from reactive oxygen species; and (5) dark‐ and light‐activated mechanisms to repair UVR‐induced damage to nucleic acids (24,25). Vertical mixing alters phytoplankton exposure to UVR and can enhance or decrease photoinhibition, depending on the depth of the mixing layer (26), the mixing rate (27) and the light attenuation properties of the local seawater (28).…”
Section: Introductionmentioning
confidence: 99%
“…It could be that the absence of UV-A under the P condition deprived the algae of quanta for photosynthesis in the UV-A region. There is evi dence that short wavelengths, especially UV-A, can be used as energy for photosynthesis in phytoplankton (Modert et al 1982) and macroalgae (Halldal 1964). Further studies using solar radiation and more accurate laboratory experiments (us ing low and high PAR background) are needed to demonstrate fully the role of PAR in a scenario of enhanced UV radiation.…”
Section: Discussionmentioning
confidence: 98%