The dynamics of Chaoborus americanus in an Adirondack lake following the reintroduction of fish

[Display omitted] •Cultural acidification extirpated a fish population from a Lake.•In the absence of fish, Chaoborus americanus colonized the Lake.•Fish were reintroduced into the Lake and C. americanus populations were tracked.•C. americanus exhibited a limited diel vertical migration.•C. american...

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Published inLimnologica Vol. 65; pp. 38 - 45
Main Authors Farrell, Jeremy L., Siegfried, Clifford A., Daniels, Robert A., Sutherland, James W., Boylen, Charles W., Bloomfield, Jay A., Quinn, Scott O., Nierzwicki-Bauer, Sandra A.
Format Journal Article
LanguageEnglish
Published Elsevier GmbH 01.07.2017
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Summary:[Display omitted] •Cultural acidification extirpated a fish population from a Lake.•In the absence of fish, Chaoborus americanus colonized the Lake.•Fish were reintroduced into the Lake and C. americanus populations were tracked.•C. americanus exhibited a limited diel vertical migration.•C. americanus were extirpated by the naturalized fish. Acid deposition during the 20th century led to the gradual elimination of fish in Brooktrout Lake (Adirondack Mountains, New York State). Thereafter, the lake was colonized by Chaoborus americanus, a dipteran with an aquatic larval stage that typically resides in the pelagic zone in fishless lakes. During subsequent chemical recovery from acidification, the lake was stocked with Brook Trout (Salvelinus fontinalis). For seven years following this reintroduction we examined the re-adaptation of the food chain. The C. americanus abundance and distribution was quantified utilizing a combination of hydroacoustics, traditional vertical net tows and Schindler-Patalas trap collections. Hydroacoustic backscattering signals were repeatable and correlated (r=0.86, p=0.003) with C. americanus abundance. Backscattering, depth, month and year were used to develop a random forest model that predicted the C. americanus density (r2=0.67, p<0.05). The hydroacoustic signal revealed a clear but limited diurnal vertical migration of C. americanus. The signal continued in the presence of the fish population beginning with reintroduction in 2005 and extending through 2011. In 2012, the hydroacoustic signal no longer was present in the lake, suggesting that the fish had eliminated the C. americanus population, which was verified with net tows. Using novel and traditional survey methods, we demonstrate that the reintroduction of fish can alter the lake community structure significantly through the extirpation of the major component of the pelagic zone.
ISSN:0075-9511
1873-5851
DOI:10.1016/j.limno.2017.07.002