Response of saltmarsh fungi to the presence of mercury and polychlorinated biphenyls at a Superfund site

Ascomycetous fungi are the major decomposers of standing-decaying smooth cordgrass (Spartina alterniflora), the major grass of saltmarshes of the southeastern U.S.A. In Brunswick, Georgia, smooth-cordgrass marshes have received a potentially severe chemical insult at the USEPA LCP Superfund Site [du...

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Bibliographic Details
Published in:Mycologia 1998-09, Vol.90 (5), p.777-784
Main Authors: Newell, S.Y. (University of Georgia, Sapelo Island, GA.), Wall, V.D
Format: Article
Language:English
Subjects:
Ascomycetes
Ascomycota
ascospore-expulsion rate
ASCOSPORES
BIOSYNTHESIS
DEGRADATION
DOTHIDEALES
Ecology
ERGOSTEROL
fungal biomass
FUNGAL SPORES
Fungi
GEORGIA (USA)
LCP Chemical
LEAVES
Ligules
MEASUREMENT
MERCURY
methylmercury
Nitrogen
Phaeosphaeria
PHAEOSPHAERIA HALIMA
PHAEOSPHAERIA SPARTINICOLA
POLLUTION
POLYCHLORINATED BIPHENYLS
Salt marshes
SALTMARSHES
Sediments
SEXUAL REPRODUCTION
SPARTINA ALTERNIFLORA
SPORE DISPERSAL
SPORES
Superfund sites
Toxicity
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Summary:Ascomycetous fungi are the major decomposers of standing-decaying smooth cordgrass (Spartina alterniflora), the major grass of saltmarshes of the southeastern U.S.A. In Brunswick, Georgia, smooth-cordgrass marshes have received a potentially severe chemical insult at the USEPA LCP Superfund Site [dumping of mercury and polychlorinated biphenyls (PCB)]. We have examined levels of living-fungal standing crop (as ergosterol) and fungal sexual productivity (rate of ascospore expulsion) in naturally decaying leaf blades of smooth cordgrass at the LCP site, at a nearby, moderately polluted site, and at a pristine site in Georgia. Although toxicant levels in sediments at the LCP site are very high (total Hg, to 71 μg g -1 dry sediment; methylmercury, to 190 ng g -1 ; PCB, to 156 μg g -1 ), living-fungal biomass was higher at the LCP site (about 890 μg ergosterol g -1 organic mass of decaying-leaf system, for dead blades on wholly dead shoots) than at the nearby moderately polluted site (about 630 μg g -1 ) or the pristine site (about 590 μg g -1 ). Ascospore release was also higher at LCP than at the pristine site. Only methylmercury at tens of ng g -1 sediment gave any evidence of negative impact upon levels of living-fungal crop. We speculate that urban/industrial nitrogen input was responsible for the higher biomass of fungi at the Brunswick sites, and that either the toxicants and/or the hypothesized N input were responsible for the major difference in cordgrass-fungal species composition found (replacement of Phaeosphaeria spartinicola by Phaeosphaeria halima).
ISSN:0027-5514
1557-2536
DOI:10.1080/00275514.1998.12026970