Mechanisms underlying export of N from high-elevation catchments during seasonal transitions

J.O. Sickman; A.L. Leydecker; Cecily C.Y. Chang; C. Kendall; J.M. Melack; D.M. Lucero; J. Schimel

doi:10.1023/A:1024928317057

Mechanisms underlying export of N from high-elevation catchments during seasonal transitions

Biogeochemistry

By: J.O. Sickman, A.L. Leydecker, Cecily C.Y. Chang, C. Kendall, J.M. Melack, D.M. Lucero, and J. Schimel

https://doi.org/10.1023/A:1024928317057

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Abstract

Mechanisms underlying catchment export of nitrogen (N) during seasonal transitions (i.e., winter to spring and summer to autumn) were investigated in high-elevation catchments of the Sierra Nevada using stable isotopes of nitrate and water, intensive monitoring of stream chemistry and detailed catchment N-budgets. We had four objectives: (1) determine the relative contribution of snowpack and soil nitrate to the spring nitrate pulse, (2) look for evidence of biotic control of N losses at the catchment scale, (3) examine dissolved organic nitrogen (DON) export patterns to gain a better understanding of the biological and hydrological controls on DON loss, and (4) examine the relationship between soil physico-chemical conditions and N export. At the Emerald Lake watershed, nitrogen budgets and isotopic analyses of the spring nitrate pulse indicate that 50 to 70% of the total nitrate exported during snowmelt (ca. April to July) is derived from catchment soils and talus; the remainder is snowpack nitrate. The spring nitrate pulse occurred several weeks after the start of snowmelt and was different from export patterns of less biologically labile compounds such as silica and DON suggesting that: (1) nitrate is produced and released from soils only after intense flushing has occurred and (2) a microbial N-sink is operating in catchment soils during the early stages of snowmelt. DON concentrations varied less than 20-30% during snowmelt, indicating that soil processes tightly controlled DON losses.

Suggested Citation

Sickman, J., Leydecker, A., Chang, C.C., Kendall, C., Melack, J., Lucero, D., and Schimel, J., 2003, Mechanisms underlying export of N from high-elevation catchments during seasonal transitions: Biogeochemistry, v. 64, no. 1, p. 1-24, https://doi.org/10.1023/A:1024928317057.

Additional publication details
Publication type	Article
Publication Subtype	Journal Article
Title	Mechanisms underlying export of N from high-elevation catchments during seasonal transitions
Series title	Biogeochemistry
DOI	10.1023/A:1024928317057
Volume	64
Issue	1
Year Published	2003
Language	English
Larger Work Type	Article
Larger Work Subtype	Journal Article
Larger Work Title	Biogeochemistry
First page	1
Last page	24