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Differential effects of energy and mass influx on the landscape synchrony of lake ecosystems
Author(s) -
Vogt Richard J.,
Rusak James A.,
Patoine Alain,
Leavitt Peter R.
Publication year - 2011
Publication title -
ecology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 2.144
H-Index - 294
eISSN - 1939-9170
pISSN - 0012-9658
DOI - 10.1890/10-1846.1
Subject(s) - ecology , ecosystem , differential (mechanical device) , geography , environmental science , biology , physics , thermodynamics
Interannual variation of 45 annually resolved time series of environmental, limnological, and biotic parameters was quantified (1994–2009) in six lakes within 52 000 km 2 to test the hypothesis that influx of energy (E; as irradiance, heat, wind) varies synchronously among sites and induces temporal coherence in lakes and their food webs, whereas influx of mass ( m ; as water, solutes, particles) reduces synchrony because local catchments uniquely modify hydrologic inputs. Overall, 82% of parameters exhibited significant ( P < 0.05) synchrony ( S ) estimated as mean pair‐wise correlation of Z‐transformed time series. Influx of E as atmospheric heat and irradiance was both more highly synchronous and less temporally variable (months‐to‐decades) than influx of m as summer precipitation, snow, or river discharge. Similarly, S of limnological parameters varied from 0.08 to 0.85, with variables known to be regulated by E influx (ice melt, gas solubility) up to twofold more coherent than those regulated by m inputs (organic solutes). Pairs of variables linked by simple direct mechanisms exhibited similar S values (air temperature and ice melt, nutrients and algae), whereas the coherence of other parameters (water temperature, mixing) was intermediate to that of multiple regulatory agents. Overall, aggregate measures of plankton density varied more coherently among lakes than did constituent taxa. These findings suggest that environmental variability is transmitted to most levels of aquatic ecosystems, but that the precise effects depend on whether E or m fluxes predominate, the coherence of each forcing mechanism, and the strength of linkages between exogenous forcing and lake response.

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