Nutrient Budgets for Undisturbed Ecosystems Along an Elevational Gradient in New Mexico

The Tesuque watersheds in the Sangre de Cristo Mountains of New Mexico were studied to compare the nutrient flux of ecosystems from different zones and biomes along an elevational gradient and on a common bedrock. Nutrient budgets for Ca, Mg, Na, and K are presented for 1972 and 1973 for watershed e...

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Bibliographic Details
Main Author: Gosz, J.R.
Format: Text
Language:unknown
Published: Hosted by Utah State University Libraries 1975
Subjects:
*Energy Budget
*Cycling Nutrients
*Ecosystems
*Biomes
New Mexico
Watersheds (Basins)
Vegetation
Calcium
Sodium
Magnesium
Potassium
Coniferous Trees
Bedrock
Alpine
Precipitation
Mountains
Dusts
Slopes
Input Output Analysis
Evapotranspiration
Primary Productivity
Elevation
Juniper Trees
Grasslands
Semiarid Climates
Runoff
Tesuque Watersheds (NM)
Sangre De Cristo Mountains (NM)
Santa Fe National Forest (NM)
Aspen Trees
Forest Sciences
Tundra
Online Access:https://digitalcommons.usu.edu/aspen_bib/5131
https://digital.library.unt.edu/ark:/67531/metadc1449984/
Description
Summary:The Tesuque watersheds in the Sangre de Cristo Mountains of New Mexico were studied to compare the nutrient flux of ecosystems from different zones and biomes along an elevational gradient and on a common bedrock. Nutrient budgets for Ca, Mg, Na, and K are presented for 1972 and 1973 for watershed ecosystems with vegetation ranging from pinion-juniper to spruce-fir and alpine tundra. Nutrient inputs varied over elevation as a result of large quantities of precipitation at high elevations and of dust at low elevations. The seasonal quantity and distribution of precipitation affected the relationship between nutrient inputs from dust and precipitation. Stream chemistry and nutrient output (dissolved loss) also varied over the elevational gradient. A number of factors appear to be involved: evapotranspiration, nutrient uptake, throughfall, discharge volume, CO, production in soil, and soil chemistry. The nutrient budgets for the watersheds showed that the smallest loss or maximum accumulation generally occurred on intermediate elevations having mixed conifer vegetation. This vegetation zone has the greatest plant and animal diversity, and the high actual evapotranspiration rate of this zone suggests that it has the highest rate of primary production. These data support the hypothesis that a high efficiency of nutrient cycling (nutrient conservation) is associated with high productivity and community complexity.

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