Journal
INTERNATIONAL REVIEW OF HYDROBIOLOGY
Volume 100, Issue 2, Pages 61-68Publisher
WILEY
DOI: 10.1002/iroh.201401769
Keywords
Algal net primary productivity; Growth curve; Harvesting; Herbivory; Trophic cascade
Categories
Funding
- CNPq [edital Universal-476365/2011-2, 500454/2011-6]
- CAPES (Parcerias FAPERJ II, Projeto Equipamento Solidario) [787/2012]
- FAPERJ-APQ1 [E-26/110.213/2010]
- CNPq APQ [304416/2009-6]
- PIBIC/UERJ
- CAPES
- CAPES/FAPERJ [E-26/100.705/2013]
- FAPERJ [E-26/102.865/2011]
Ask authors/readers for more resources
We estimated the net primary productivity of periphyton algae and rate of macroinvertebrate grazing in a third-order stream in coastal Atlantic forest, Brazil. Net primary productivity was estimated from the growth curve of periphyton chlorophyll, based on the relationship between algal density and algal production, with baetid ephemeropteran grazers excluded by high-intensity electric shocks. We fit a logistic model and cite the maximum productivity 44.7mgCm(-2) d(-1). We manipulated grazing pressure by excluding the shrimp Macrobrachium olfersi by low-intensity electrical exclusionthe shrimp was known to have a negative effect on ephemeropteran grazing and to cause a trophic cascade on periphyton. Thus, rate of grazing was estimated at the normal level of grazing and with grazing enhanced by the exclusion of shrimps. Normal level of grazing reduced periphyton algal stock (6mg chlorophyll m(-2)) by slightly less than 50%, enhanced grazing by slightly more than 50%. This implied that grazing removed algae at approximately the maximum net productivitythat is 19% d(-1) and 24% d(-1) of algal stock in normal and enhanced grazing respectively, equivalent to 44.1mgC m(-2) d(-1) in both cases. The observed net primary productivity obtained by direct measurement matches that expected from predictive equations based on chlorophyll levels, but is at the lower part of the range observed in worldwide and tropical surveys. It matches results of recent studies in the tropics which used open-channel diel changes in oxygen to calculate gross primary productivity. The method appears reliable and is potentially applicable to situations in which other methods are constrained by low productivity and other technical difficulties.
Authors
I am an author on this paper
Click your name to claim this paper and add it to your profile.
Reviews
Recommended
No Data Available