2017
DOI: 10.1007/s00300-017-2135-y
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The stability of cladoceran communities in sub-arctic NW Finnish Lapland lakes

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Cited by 9 publications
(7 citation statements)
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“…The overall increase in pelagic bosminids at the landscape level may also be indicative of climate-mediated changes to lake thermal properties as has been reported in earlier paleolimnological investigations from Ontario (Jeziorski et al, 2015;Hargan et al, 2016) and elsewhere (Leppänen et al, 2017b;Armstrong and Kurek, 2019). Similar to many other parts of Ontario, the annual air temperature around Cobalt has increased (Supplementary Material 4).…”
Section: Differences In Cladoceran Assemblage Between Top and Bottom Sedimentssupporting
confidence: 52%
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“…The overall increase in pelagic bosminids at the landscape level may also be indicative of climate-mediated changes to lake thermal properties as has been reported in earlier paleolimnological investigations from Ontario (Jeziorski et al, 2015;Hargan et al, 2016) and elsewhere (Leppänen et al, 2017b;Armstrong and Kurek, 2019). Similar to many other parts of Ontario, the annual air temperature around Cobalt has increased (Supplementary Material 4).…”
Section: Differences In Cladoceran Assemblage Between Top and Bottom Sedimentssupporting
confidence: 52%
“…The topbottom approach provides a snapshot of changes in biological composition between recent and older periods; however, this method has limitations such as the timing of change cannot be determined and the bottom sediment from all lakes may not be from the same time period (Smol, 2008). Despite these limitations, this approach has been an effective paleolimnological tool to track regional environmental change in Arctic and temperate lakes, especially in areas where historical biological data are not available (Jeziorski et al, 2015;Leppänen et al, 2017b;Armstrong and Kurek, 2019;Persaud et al, 2021). Since the top-bottom approach provides a regional snapshot of biological change, it also helps to identify lakes where substantial biotic changes have occurred and select sites for future detailed paleolimnological analyses.…”
Section: Introductionmentioning
confidence: 99%
“…In general, cladoceran species detected in both study sites are common in Finnish Lapland lakes (Leppänen et al 2017) and ponds (Rautio 1998). In addition, many of the species detected in both sites are regarded as common in peat bog ponds (Glime 2017) and some of the species (A. nana, C. sphaericus, A. excisa, A. affinis, Acroperus harpae) were reported during the late stages of transition from hilltop lake to an acidic ombrotrophic bog in southern Finland (Korhola 1992).…”
Section: Cladoceran Communities In Kaamanen and Iittomentioning
confidence: 82%
“…Flood frequency and the longevity of inundation period are known to control zooplankton communities in floodplain ponds (Medley and Havel 2007) and cladoceran community structure in different types of lakes in northern Finnish Lapland has been studied numerous times (Rautio 1998;Korhola 1999;Siitonen et al 2011;Leppänen et al 2017). D e s p i t e t h i s , l o n g -t e r m m o n i t o r i n g s t u d i e s o r paleolimnological studies assessing the cladoceran community dynamics in subarctic peatland pools have not been conducted before.…”
Section: Introductionmentioning
confidence: 99%
“…Namely, cladocerans are sensitive to pollution (Von Der Ohe and Liess 2004) and have short life cycles (Smirnov 2017), resulting in rapid responses to environmental stress. Recently, cladocerans have been used to study community level responses to environmental variables in many types of environments, e.g., dystrophic lakes in central Europe (Zawisza et al 2016), subarctic lakes in Finland (Leppänen et al 2016) and crater lakes in western Uganda (Rumes et al 2011). The potential of cladocerans as a community level indicator tool in mining pollution studies is highlighted in the results of this review as the community shifts are clearly visible in most of the studies which span from pre-to post impact conditions.…”
Section: The Applicability Of Cladocera As Bioindicators/biomonitorsmentioning
confidence: 97%