Benthic algal and insect responses to nutrient enrichment of an in-stream mesocosm
A nutrient bioassay was conducted in the Slocan River in southeastern British Columbia to evaluate potential trophic level responses in advance of whole-stream enrichment. A mesocosm approach was used to contrast periphyton and insect responses to low-level nitrogen and phosphorus treatments over...
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ndltd-LACETR-oai-collectionscanada.gc.ca-BVAU.2429-82022014-03-14T15:42:34Z Benthic algal and insect responses to nutrient enrichment of an in-stream mesocosm Oliver, Gerald G. A nutrient bioassay was conducted in the Slocan River in southeastern British Columbia to evaluate potential trophic level responses in advance of whole-stream enrichment. A mesocosm approach was used to contrast periphyton and insect responses to low-level nitrogen and phosphorus treatments over an 83 d period in late summer. The nutrient bioassay was used to describe quantitatively and qualitatively benthic algal and insect relationships to manipulations of N and P concentrations and their ratios. N:P concentrations of 1:1, 3:3 and 5:5 μg-L⁻¹ and 4:1, 12:3 and 20:5 μg-L⁻¹ were used for treatment group comparisons. The experimental design consisted of six, replicated (x2) treatments and control. Although significant differences in periphyton accrual (measured as chlorophyll a biomass) were consistently demonstrated between control and treatment groups, the 4:1 treatment group was substantially higher in algal biomass than the 1:1 treatment group. Up to 4 and 8-fold differences in periphyton accrual over background were observed for the 1:1 and 4:1 treatment groups, respectively. Differences in biomass between treatment groups suggested N limitation. With the exception of the 1:1 nutrient concentration where a cyanophyte (Oscillatoria sp.) became highly abundant, all other treatments were dominated by chlorophytes and diatoms. The benthic insect response was similar to the periphyton response with up to 3-fold differences in insect abundance and a near-doubling of biomass observed in the 1:1 and 4:1 treatment groups. Differences in the amplitude and periodicity of insect diel drift cycles suggested differences in food abundance between control and treatment groups. A reduction in total insect per capita drift rate from one-half to one-third of that observed under background conditions provided further evidence in support of delayed emigration in treated channels. Taxa-specific differences in per capita drift rate between control and treatments also occurred for baetid mayflies where a drop from one-half to one-third was observed within certain nutrient ratios of each treatment group. The higher availability of food in treatment groups was further supported by larger body size of insects in both the drift and the benthos. Over the period of study, chironomid midges and baetid mayflies were the most abundant taxa. Owing to a large emigration near the end of the experiment, chironomid midges that were initially numerically dominant were replaced by mayflies, albeit at lower densities. Although insects were not considered food-limited, grazers had substantial influence on areal algal biomass. After comparing differences in taxonomic richness and trophic level response, the 4N:1P ratio was considered optimum for whole-stream application. 2009-05-26T17:23:29Z 2009-05-26T17:23:29Z 1998 2009-05-26T17:23:29Z 1998-11 Electronic Thesis or Dissertation http://hdl.handle.net/2429/8202 eng UBC Retrospective Theses Digitization Project [http://www.library.ubc.ca/archives/retro_theses/] |
collection |
NDLTD |
language |
English |
sources |
NDLTD |
description |
A nutrient bioassay was conducted in the Slocan River in southeastern British Columbia to
evaluate potential trophic level responses in advance of whole-stream enrichment. A
mesocosm approach was used to contrast periphyton and insect responses to low-level nitrogen
and phosphorus treatments over an 83 d period in late summer. The nutrient bioassay was
used to describe quantitatively and qualitatively benthic algal and insect relationships to
manipulations of N and P concentrations and their ratios. N:P concentrations of 1:1, 3:3 and 5:5
μg-L⁻¹ and 4:1, 12:3 and 20:5 μg-L⁻¹ were used for treatment group comparisons. The
experimental design consisted of six, replicated (x2) treatments and control. Although
significant differences in periphyton accrual (measured as chlorophyll a biomass) were
consistently demonstrated between control and treatment groups, the 4:1 treatment group was
substantially higher in algal biomass than the 1:1 treatment group. Up to 4 and 8-fold
differences in periphyton accrual over background were observed for the 1:1 and 4:1 treatment
groups, respectively. Differences in biomass between treatment groups suggested N limitation.
With the exception of the 1:1 nutrient concentration where a cyanophyte (Oscillatoria sp.)
became highly abundant, all other treatments were dominated by chlorophytes and diatoms.
The benthic insect response was similar to the periphyton response with up to 3-fold differences
in insect abundance and a near-doubling of biomass observed in the 1:1 and 4:1 treatment
groups. Differences in the amplitude and periodicity of insect diel drift cycles suggested
differences in food abundance between control and treatment groups. A reduction in total insect
per capita drift rate from one-half to one-third of that observed under background conditions
provided further evidence in support of delayed emigration in treated channels. Taxa-specific
differences in per capita drift rate between control and treatments also occurred for baetid
mayflies where a drop from one-half to one-third was observed within certain nutrient ratios of
each treatment group. The higher availability of food in treatment groups was further supported
by larger body size of insects in both the drift and the benthos. Over the period of study,
chironomid midges and baetid mayflies were the most abundant taxa. Owing to a large
emigration near the end of the experiment, chironomid midges that were initially numerically
dominant were replaced by mayflies, albeit at lower densities. Although insects were not
considered food-limited, grazers had substantial influence on areal algal biomass. After
comparing differences in taxonomic richness and trophic level response, the 4N:1P ratio was
considered optimum for whole-stream application. |
author |
Oliver, Gerald G. |
spellingShingle |
Oliver, Gerald G. Benthic algal and insect responses to nutrient enrichment of an in-stream mesocosm |
author_facet |
Oliver, Gerald G. |
author_sort |
Oliver, Gerald G. |
title |
Benthic algal and insect responses to nutrient enrichment of an in-stream mesocosm |
title_short |
Benthic algal and insect responses to nutrient enrichment of an in-stream mesocosm |
title_full |
Benthic algal and insect responses to nutrient enrichment of an in-stream mesocosm |
title_fullStr |
Benthic algal and insect responses to nutrient enrichment of an in-stream mesocosm |
title_full_unstemmed |
Benthic algal and insect responses to nutrient enrichment of an in-stream mesocosm |
title_sort |
benthic algal and insect responses to nutrient enrichment of an in-stream mesocosm |
publishDate |
2009 |
url |
http://hdl.handle.net/2429/8202 |
work_keys_str_mv |
AT olivergeraldg benthicalgalandinsectresponsestonutrientenrichmentofaninstreammesocosm |
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1716651340525993984 |