TY - JOUR
T1 - Biological and chemical factors influencing shallow lake eutrophication
T2 - A long-term study
AU - Lau, S. S.S.
AU - Lane, S. N.
N1 - Funding Information:
This research was conducted with the financial support of the Croucher Foundation Hong Kong. SSSL was in receipt of a Croucher PhD scholarship. This paper would not have been written without the technical assistance of Sarah Caswell, Claire Metcalfe and other staff of the Environment Agency UK in terms of data assimilation whilst SSSL visited the Haddiscoe Laboratory in spring 1999. We are grateful to Dr Geoff Phillips and Dr Jo Pitt of the Environment Agency UK for constructive comments on an early draft. The manuscript benefited significantly from the comments of Prof. Brian Moss of University of Liverpool, UK.
Publisher Copyright:
© 2002 Elsevier Science B.V.
PY - 2002/4/15
Y1 - 2002/4/15
N2 - The focus of eutrophication research has tended to be upon short-term
and experimental studies. However, given the range of factors that can
influence eutrophication dynamics, and that these matter over a range of
time scales, some discrete, some continuous, eutrophication dynamics
may only be fully investigated when long-term, time-series data are
available. The present study aims to evaluate the interacting effects of
abiotic processes and biotic dynamics in explaining variations of
phytoplankton biomass in a eutrophic shallow lake, Barton Broad
(Norfolk, UK) using a long-term data set. Multivariate statistical
analysis shows that the inter-relationships between phytoplankton
variability, nutrient and grazing factors were highly sensitive to
seasonal periodicity. In spring phytoplankton biomass was related to
phosphorus, nitrogen and silicon. In summer phytoplankton biomass was
associated with phosphorus, nitrogen and zooplankton. In autumn
phytoplankton was related to phosphorus, nitrogen, silicon and
zooplankton. In winter, no significant relationship could be established
between phytoplankton and environmental variables. This paper improves
our understanding of the governing role of nitrogen, phosphorus, silicon
and zooplankton upon phytoplankton variability, and hence, improves
management methods for eutrophic lakes.
AB - The focus of eutrophication research has tended to be upon short-term
and experimental studies. However, given the range of factors that can
influence eutrophication dynamics, and that these matter over a range of
time scales, some discrete, some continuous, eutrophication dynamics
may only be fully investigated when long-term, time-series data are
available. The present study aims to evaluate the interacting effects of
abiotic processes and biotic dynamics in explaining variations of
phytoplankton biomass in a eutrophic shallow lake, Barton Broad
(Norfolk, UK) using a long-term data set. Multivariate statistical
analysis shows that the inter-relationships between phytoplankton
variability, nutrient and grazing factors were highly sensitive to
seasonal periodicity. In spring phytoplankton biomass was related to
phosphorus, nitrogen and silicon. In summer phytoplankton biomass was
associated with phosphorus, nitrogen and zooplankton. In autumn
phytoplankton was related to phosphorus, nitrogen, silicon and
zooplankton. In winter, no significant relationship could be established
between phytoplankton and environmental variables. This paper improves
our understanding of the governing role of nitrogen, phosphorus, silicon
and zooplankton upon phytoplankton variability, and hence, improves
management methods for eutrophic lakes.
KW - Daphnia
KW - Norfolk Broads
KW - Phytoplankton
KW - Temporal variability
UR - http://www.scopus.com/inward/record.url?scp=0037089637&partnerID=8YFLogxK
U2 - 10.1016/S0048-9697(01)00957-3
DO - 10.1016/S0048-9697(01)00957-3
M3 - Journal article
C2 - 11991522
AN - SCOPUS:0037089637
SN - 0048-9697
VL - 288
SP - 167
EP - 181
JO - Science of the Total Environment
JF - Science of the Total Environment
IS - 3
ER -