TY - JOUR
T1 - Developing biomonitoring protocols for shallow Arctic lakes using diatoms and artificial substrate samplers
AU - MacDonald, Lauren A.
AU - Balasubramaniam, Ann M.
AU - Hall, Roland I.
AU - Wolfe, Brent B.
AU - Sweetman, Jon N.
N1 - Funding Information:
Acknowledgements Funding for this study was provided by the Natural Sciences and Engineering Research Council of Canada (NSERC) via a Northern Research Internship to A. M. Balasubramaniam, a Strategic Partnership Projects Grant and Northern Research Chair, and Discovery Grant/Northern Supplement Programs, the Yukon Fish and Wildlife Enhancement Fund, the Indian and Northern Affairs Northern Scientific Training Program, Polar Continental Shelf Program and Government of Canada International Polar Year. Field work was conducted in collaboration with the Vuntut Gwitchin Government’s Natural Resource Department (assisted by Robert Kyikavichik, Ryan Kyikavichik, Michael Frost, Freddie Frost, Devon Kyikavichik) and Parks Canada Agency (assisted by Leila Sumi). We thank Shel Graupe, Megan Williams, and Dorothy Cooley for their logistical help in coordinating this research. We extend a special thanks to the Netro family for allowing us to conduct this research in their traditional camp area. We also acknowledge Ian McDonald (Parks Canada) for discussions on incorporating artificial substrate samplers for hydroecological monitoring in Vuntut National Park.
PY - 2012/3
Y1 - 2012/3
N2 - Growing concerns over effects of climate warming and other stressors on shallow Arctic lakes and ponds stimulate the need to develop and implement effective protocols to track changes in ecological integrity. This study assesses seasonal and spatial variability of periphytic diatom communities in a shallow Arctic lake in northern Yukon Territory to establish biomonitoring protocols. Artificial substrate samplers, which mimic macrophytes, allow direct measurement of biotic responses to shifting environmental conditions and control for possible confounding factors (e. g., accrual time and microhabitat type). Artificial substrate samplers were deployed at three locations and retrieved at three times (early, mid, and late) during the ice-free season. Analyses identified that diatom abundance increased exponentially and community composition changed significantly over the ice-free season, despite little variability in water chemistry, but did not differ among the three sampling locations within the lake. Patterns of seasonal succession in diatom community composition were characterized by first arrival of well-dispersed taxa, which included several planktonic taxa, followed by a transitional phase composed of planktonic and periphytic taxa, and culminated with dominance by periphytic species, mainly Achnanthes minutissima (Kützing). Results highlight the role of seasonal succession on artificial substrate colonization and the need to deploy artificial substrate samplers for the duration of the ice-free season to capture peak periphytic algal abundance. Low spatial variability of shallow Arctic lakes allows for samplers to be deployed at one single location to characterize diatom community composition.
AB - Growing concerns over effects of climate warming and other stressors on shallow Arctic lakes and ponds stimulate the need to develop and implement effective protocols to track changes in ecological integrity. This study assesses seasonal and spatial variability of periphytic diatom communities in a shallow Arctic lake in northern Yukon Territory to establish biomonitoring protocols. Artificial substrate samplers, which mimic macrophytes, allow direct measurement of biotic responses to shifting environmental conditions and control for possible confounding factors (e. g., accrual time and microhabitat type). Artificial substrate samplers were deployed at three locations and retrieved at three times (early, mid, and late) during the ice-free season. Analyses identified that diatom abundance increased exponentially and community composition changed significantly over the ice-free season, despite little variability in water chemistry, but did not differ among the three sampling locations within the lake. Patterns of seasonal succession in diatom community composition were characterized by first arrival of well-dispersed taxa, which included several planktonic taxa, followed by a transitional phase composed of planktonic and periphytic taxa, and culminated with dominance by periphytic species, mainly Achnanthes minutissima (Kützing). Results highlight the role of seasonal succession on artificial substrate colonization and the need to deploy artificial substrate samplers for the duration of the ice-free season to capture peak periphytic algal abundance. Low spatial variability of shallow Arctic lakes allows for samplers to be deployed at one single location to characterize diatom community composition.
UR - http://www.scopus.com/inward/record.url?scp=84856366290&partnerID=8YFLogxK
UR - http://www.scopus.com/inward/citedby.url?scp=84856366290&partnerID=8YFLogxK
U2 - 10.1007/s10750-011-0960-5
DO - 10.1007/s10750-011-0960-5
M3 - Article
AN - SCOPUS:84856366290
SN - 0018-8158
VL - 683
SP - 231
EP - 248
JO - Hydrobiologia
JF - Hydrobiologia
IS - 1
ER -