Biomass variation and autotrophic production of an epiphyte-macrophyte community in a costal danish area: II. epiphyte species composition, biomass and production

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Biomass variation and autotrophic production of an epiphyte-macrophyte community in a costal danish area : II. epiphyte species composition, biomass and production. / Borum, Jens; Kaas, Hanne; Wium-Andersen, Søren.

In: Ophelia, Vol. 23, No. 2, 12.1984, p. 165-179.

Research output: Contribution to journalJournal articleResearchpeer-review

Harvard

Borum, J, Kaas, H & Wium-Andersen, S 1984, 'Biomass variation and autotrophic production of an epiphyte-macrophyte community in a costal danish area: II. epiphyte species composition, biomass and production', Ophelia, vol. 23, no. 2, pp. 165-179. https://doi.org/10.1080/00785326.1984.10426612

APA

Borum, J., Kaas, H., & Wium-Andersen, S. (1984). Biomass variation and autotrophic production of an epiphyte-macrophyte community in a costal danish area: II. epiphyte species composition, biomass and production. Ophelia, 23(2), 165-179. https://doi.org/10.1080/00785326.1984.10426612

Vancouver

Borum J, Kaas H, Wium-Andersen S. Biomass variation and autotrophic production of an epiphyte-macrophyte community in a costal danish area: II. epiphyte species composition, biomass and production. Ophelia. 1984 Dec;23(2):165-179. https://doi.org/10.1080/00785326.1984.10426612

Author

Borum, Jens ; Kaas, Hanne ; Wium-Andersen, Søren. / Biomass variation and autotrophic production of an epiphyte-macrophyte community in a costal danish area : II. epiphyte species composition, biomass and production. In: Ophelia. 1984 ; Vol. 23, No. 2. pp. 165-179.

Bibtex

@article{1987537375544ba1a0354f1e3cf44706,
title = "Biomass variation and autotrophic production of an epiphyte-macrophyte community in a costal danish area: II. epiphyte species composition, biomass and production",
abstract = "A study done at Hvid{\o}re in the {\O}resund, Denmark, in 1979 showed that algae and bacteria occurred on eelgrass leaves throughout the year. Algal species composition, biomass and productivity varied markedly with season, depending on both environmental conditions and growth pattern of the host macrophyte. Bacteria and the diatom Cocconeis scutellum Ehrenberg were pioneer colonizers on young eelgrass leaves. With increasing leaf age several algal species appeared and, in total, 24 algal species were recorded. Species diversity reached a maximum in spring when green and brown macroalgae dominated, while during summer and autumn, microalgae and bacteria dominated. Epiphyte biomass and productivity followed a bimodal pattern with maximum values in April-May and small, secondary maxima in August. The life time of eelgrass leaves ranged between 50 days (summer) and 200 days (winter) and, thus, exposure of the leaf substratum to epiphyte colonization and biomass accumulation varied substantially with season. Optimal environmental conditions to algal growth, reflected by high species diversity and productivity, occurred in early spring when the ice-cover disappeared and light conditions improved. During summer, epiphyte productivity was suppressed, most likely, due to limitation in nutrient availability. Grazing by herbivorous invertebrates was not quantified, but the results suggest that during late summer and autumn, grazing is an important biomass-regulating factor, which needs further study. The annual epiphyte production was 70 g C • m-2 of eelgrass bed and it contributed 8% to combined eelgrass and epiphyte production. Light attenuation by epiphyte layers occasionally exceeded 90% on old leaves, but on an annual basis it averaged less than 10% and did not appear to affect eelgrass production.",
author = "Jens Borum and Hanne Kaas and S{\o}ren Wium-Andersen",
year = "1984",
month = dec,
doi = "10.1080/00785326.1984.10426612",
language = "English",
volume = "23",
pages = "165--179",
journal = "Marine Biology Research",
issn = "1745-1000",
publisher = "Taylor & Francis",
number = "2",

}

RIS

TY - JOUR

T1 - Biomass variation and autotrophic production of an epiphyte-macrophyte community in a costal danish area

T2 - II. epiphyte species composition, biomass and production

AU - Borum, Jens

AU - Kaas, Hanne

AU - Wium-Andersen, Søren

PY - 1984/12

Y1 - 1984/12

N2 - A study done at Hvidøre in the Øresund, Denmark, in 1979 showed that algae and bacteria occurred on eelgrass leaves throughout the year. Algal species composition, biomass and productivity varied markedly with season, depending on both environmental conditions and growth pattern of the host macrophyte. Bacteria and the diatom Cocconeis scutellum Ehrenberg were pioneer colonizers on young eelgrass leaves. With increasing leaf age several algal species appeared and, in total, 24 algal species were recorded. Species diversity reached a maximum in spring when green and brown macroalgae dominated, while during summer and autumn, microalgae and bacteria dominated. Epiphyte biomass and productivity followed a bimodal pattern with maximum values in April-May and small, secondary maxima in August. The life time of eelgrass leaves ranged between 50 days (summer) and 200 days (winter) and, thus, exposure of the leaf substratum to epiphyte colonization and biomass accumulation varied substantially with season. Optimal environmental conditions to algal growth, reflected by high species diversity and productivity, occurred in early spring when the ice-cover disappeared and light conditions improved. During summer, epiphyte productivity was suppressed, most likely, due to limitation in nutrient availability. Grazing by herbivorous invertebrates was not quantified, but the results suggest that during late summer and autumn, grazing is an important biomass-regulating factor, which needs further study. The annual epiphyte production was 70 g C • m-2 of eelgrass bed and it contributed 8% to combined eelgrass and epiphyte production. Light attenuation by epiphyte layers occasionally exceeded 90% on old leaves, but on an annual basis it averaged less than 10% and did not appear to affect eelgrass production.

AB - A study done at Hvidøre in the Øresund, Denmark, in 1979 showed that algae and bacteria occurred on eelgrass leaves throughout the year. Algal species composition, biomass and productivity varied markedly with season, depending on both environmental conditions and growth pattern of the host macrophyte. Bacteria and the diatom Cocconeis scutellum Ehrenberg were pioneer colonizers on young eelgrass leaves. With increasing leaf age several algal species appeared and, in total, 24 algal species were recorded. Species diversity reached a maximum in spring when green and brown macroalgae dominated, while during summer and autumn, microalgae and bacteria dominated. Epiphyte biomass and productivity followed a bimodal pattern with maximum values in April-May and small, secondary maxima in August. The life time of eelgrass leaves ranged between 50 days (summer) and 200 days (winter) and, thus, exposure of the leaf substratum to epiphyte colonization and biomass accumulation varied substantially with season. Optimal environmental conditions to algal growth, reflected by high species diversity and productivity, occurred in early spring when the ice-cover disappeared and light conditions improved. During summer, epiphyte productivity was suppressed, most likely, due to limitation in nutrient availability. Grazing by herbivorous invertebrates was not quantified, but the results suggest that during late summer and autumn, grazing is an important biomass-regulating factor, which needs further study. The annual epiphyte production was 70 g C • m-2 of eelgrass bed and it contributed 8% to combined eelgrass and epiphyte production. Light attenuation by epiphyte layers occasionally exceeded 90% on old leaves, but on an annual basis it averaged less than 10% and did not appear to affect eelgrass production.

UR - http://www.scopus.com/inward/record.url?scp=0007743239&partnerID=8YFLogxK

U2 - 10.1080/00785326.1984.10426612

DO - 10.1080/00785326.1984.10426612

M3 - Journal article

AN - SCOPUS:0007743239

VL - 23

SP - 165

EP - 179

JO - Marine Biology Research

JF - Marine Biology Research

SN - 1745-1000

IS - 2

ER -

ID: 238684196