Biomass variation and autotrophic production of an epiphyte-macrophyte community in a coastal Danish area: I. Eelgrass (Zostera marina L.) biomass and net production
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Biomass variation and autotrophic production of an epiphyte-macrophyte community in a coastal Danish area : I. Eelgrass (Zostera marina L.) biomass and net production. / Wium-Andersen, Søren; Borum, Jens.
I: Ophelia, Bind 23, Nr. 1, 1984, s. 33-46.Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › fagfællebedømt
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TY - JOUR
T1 - Biomass variation and autotrophic production of an epiphyte-macrophyte community in a coastal Danish area
T2 - I. Eelgrass (Zostera marina L.) biomass and net production
AU - Wium-Andersen, Søren
AU - Borum, Jens
PY - 1984
Y1 - 1984
N2 - The seasonal changes of eelgrass biomass and net production were recorded in an eelgrass bed in the Øresund, Denmark, from August 1978 through December 1979. The eelgrass biomass varied from 170 g dry wt • m-2 in early spring to 622 g dry wt • m-2 in autumn. The ratio of maximum biomass to minimum biomass was 23 for leaves and 2.5 for roots and rhizomes. Leaf growth was measured in situ by a leaf-marking technique. The leaf growth of individual turions followed a unimodal seasonal pattern, with the highest values in June. During winter, leaf growth was slow but continued even under ice-cover. Variation in light explained 75% of the seasonal variation in leaf growth rates, temperature only 6%, while salinity did not contribute significantly. Maximum leaf area index was constant at the locality in two consecutive years and was independent of turion densities. The annual net production of eelgrass was 2209 g dry wt • m-2 or 814 g C •- m-2 which corresponded to 92% of the total eelgrass plus epiphyte production. During autumn there was a considerable loss of eelgrass leaves and turions. This loss is often exported from the ecosystem.
AB - The seasonal changes of eelgrass biomass and net production were recorded in an eelgrass bed in the Øresund, Denmark, from August 1978 through December 1979. The eelgrass biomass varied from 170 g dry wt • m-2 in early spring to 622 g dry wt • m-2 in autumn. The ratio of maximum biomass to minimum biomass was 23 for leaves and 2.5 for roots and rhizomes. Leaf growth was measured in situ by a leaf-marking technique. The leaf growth of individual turions followed a unimodal seasonal pattern, with the highest values in June. During winter, leaf growth was slow but continued even under ice-cover. Variation in light explained 75% of the seasonal variation in leaf growth rates, temperature only 6%, while salinity did not contribute significantly. Maximum leaf area index was constant at the locality in two consecutive years and was independent of turion densities. The annual net production of eelgrass was 2209 g dry wt • m-2 or 814 g C •- m-2 which corresponded to 92% of the total eelgrass plus epiphyte production. During autumn there was a considerable loss of eelgrass leaves and turions. This loss is often exported from the ecosystem.
U2 - 10.1080/00785236.1984.10426603
DO - 10.1080/00785236.1984.10426603
M3 - Journal article
AN - SCOPUS:0001978610
VL - 23
SP - 33
EP - 46
JO - Marine Biology Research
JF - Marine Biology Research
SN - 1745-1000
IS - 1
ER -
ID: 238684320