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Biogeochemical responses of two forest streams to a 2-month calcium addition
Authors:Robert O. Hall Jr  Kate H. Macneale  Emily S. Bernhardt  Miandra Field   Gene E. Likens
Affiliation:Institute of Ecosystem Studies, Box AB, Millbrook, NY 12545, U.S.A.;Department of Entomology, Cornell University, Ithaca, NY 14853, U.S.A.;Field of Ecology and Evolutionary Biology, Cornell University, Ithaca, NY 14853, U.S.A.;Department of Civil and Environmental Engineering, Syracuse University, Syracuse, NY 13244, U.S.A.
Abstract:1. Calcium (Ca) has been lost from forest soils at the Hubbard Brook Experimental Forest (HBEF) because of decreased atmospheric input of Ca and high input of acid anions. Through time, this Ca loss has led to low streamwater Ca concentration and this change may affect stream ecosystem processes.
2. To test both the biogeochemical response of streams to increased calcium concentration and the role of streams in retaining calcium lost from soils, we added c. 120 μeq Ca L?1 as CaCl2 to two second‐order streams at HBEF for 2 months. One stream (buffered) also received an equivalent amount of NaHCO3 to simulate the increase in pH and alkalinity if Ca were added with associated HCO3? ion. The other stream (unbuffered) received only CaCl2. We collected water samples along a transect above and below the addition site at 11 dates: two before, seven during, and two after the addition.
3. Increase in pH in the buffered stream ranged from 5.6 to about 7.0 in the treated section. There was a net uptake of Ca on all sampling dates during the addition and these uptake rates were positively related to pH. Between 10 and 50% of the added Ca was taken up during the release in the 80‐m study reach. In the unbuffered stream, there was net uptake of Ca on only two dates, suggesting lower Ca uptake.
4. Water samples collected after the addition was stopped showed that a small fraction of the added Ca desorbed from sediments; the remainder was apparently in longer‐term storage in the sediments. No Ca desorbed from the stream sediments in the unbuffered stream, showing that sorption/desorption may be controlled by a pH‐induced increase in the number of exchange sites.
5. These streams appeared to be a significant sink for Ca over a 2‐month time scale, and thus, change in streamwater Ca during a year may be due to processing of Ca within the stream channel, as well as to changes in inputs from the catchment.
Keywords:bicarbonate    calcium uptake    Hubbard Brook Experimental Forest    pH    streams
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