ISSN:
1573-5141
Keywords:
seaweeds
;
juvenile stages
;
stress factors
;
UV radiation
;
global warming
;
eutrophication
;
trace metal pollution
;
oil pollution
Source:
Springer Online Journal Archives 1860-2000
Topics:
Biology
Notes:
Abstract Seaweeds are important primary producers, and as such contributesignificantly to nearshore ecosystems. Studies on the effects ofanthropogenic stresses on these organisms have largely been concernedwith the vegetative adult stages of the life cycle. Here we review thelimited information on the sensitivity of early stages in the life cycleof seaweeds to global change (UV increase; global warming;increased storm frequencies) and pollution (eutrophication, trace metalsand oil). Impacts on fertility, substrate attachment, development,photosynthesis, growth and mortality are highlighted. In their naturalhabitats, early stages are shade-adapted, as they live shel tered underadult canopies and in pores of the substrata. Although some acclimationunder increased moderate irradiance is seen, higher solar irradiance,and especially ultraviolet-B, inhibits early development. Global warmingmay decrease the fertility and shorten the fertile period of somespecies. With the increasing likelihood of storms associated with globalwarming, gamete release may be inhibited while scouring by suspendedsediments may detach newly settled stages. Succession and localdistribution patterns are likely to be affected. Eutrophication canresult in accelerated development of the early stages of some algalspecies but sewage discharges have a negative impact on sperm motility,fertilisation and can cause increased mortality in germlings. Impacts ofother, indirect effects of eutrophication, including increased sedimentcover of substrata, scouring caused by wind-induced resuspension ofsediments, and grazing, are also expected to be negative. Toxic tracemetals affect gamete viability, inhibit fertilisation and development,and reduce growth rates. Gametes are particularly susceptible to oilpollution and interactions between hydrocarbons and the adhesive mucussurrounding the embryonic stages seem to inhibit settlement.Recommendations for future studies are provided that are aimed atgaining greater insight into the effects of anthropogenic stress on theweakest links in the development cycle of seaweeds.
Type of Medium:
Electronic Resource
URL:
http://dx.doi.org/10.1023/A:1009916129009
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