Outdoor studies on the effects of solar UV-B on bryophytes:Overview and methodology

In this review all recent field studies on the effects of UV-B radiation on bryophytes are discussed. In most of the studies fluorescent UV-B tubes are used to expose the vegetation to enhanced levels of UV-B radiation to simulate stratospheric ozone depletion. Other studies use screens to filter th...

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Bibliographic Details
Published in:Plant Ecology
Main Authors: Boelen, P., de Boer, M.K., de Bakker, N., Rozema, Jelte
Format: Article in Journal/Newspaper
Language:English
Published: 2006
Subjects:
Antarctic
Arctic
bryophytes
Chorisodontium aciplyllum
cyclobutane Pyrimidine dimers
DNA damage
mosses
ozone depletion
Polytrichum strictum
Sanionia uncinata
terrestrial polar ecosystems
ultraviolet-B radiation
UV-B exposure systems
UVBR
Warnstorfia sarmentosa
STRATOSPHERIC OZONE DEPLETION
TIERRA-DEL-FUEGO
SUB-ARCTIC HEATH
SIMULATED CLIMATE-CHANGE
UNCINATA HEDW. LOESKE
ULTRAVIOLET-RADIATION
HIGHER-PLANTS
TERRESTRIAL ECOSYSTEMS
OXIDATIVE STRESS
GLOBAL CHANGE
Signy Island
Antarc*
Climate change
Tierra del Fuego
Online Access:https://hdl.handle.net/11370/016bc4f1-3b61-495a-8a6d-19a680cad8f4
https://research.rug.nl/en/publications/016bc4f1-3b61-495a-8a6d-19a680cad8f4
https://doi.org/10.1007/s11258-005-9023-1
Description
Summary:In this review all recent field studies on the effects of UV-B radiation on bryophytes are discussed. In most of the studies fluorescent UV-B tubes are used to expose the vegetation to enhanced levels of UV-B radiation to simulate stratospheric ozone depletion. Other studies use screens to filter the UV-B part of the solar spectrum, thereby comparing ambient levels of UV-B with reduced UV-B levels, or analyse effects of natural variations in UV-B arising from stratospheric ozone depletion. Nearly all studies show that mosses are well adapted to ambient levels of UV-B radiation since UV-B hardly affects growth parameters. In contrast with outdoor studies on higher plants, soluble UV-B absorbing compounds in bryophytes are typically not induced by enhanced levels of UV-B radiation. A few studies have demonstrated that UV-B radiation can influence plant morphology, photosynthetic capacity, photosynthetic pigments or levels of DNA damage. However, there is only a limited number of outdoor studies presented in the literature. More additional, especially long-term, experiments are needed to provide better data for statistical meta-analyses. A mini UV-B supplementation system is described, especially designed to study effects of UV-B radiation at remote field locations under harsh conditions, and which is therefore suited to perform long-term studies in the Arctic or Antarctic. The first results are presented from a long-term UV-B supplementation experiment at Signy Island in the Maritime Antarctic.

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