wAbstract
@Atmospheric nitrogen (N) deposition increasingly impacts remote
ecosystems. At high altitudes, snow is a key carrier of water
and nutrients from the atmosphere to the soil. Medium-sized subalpine
grassland terraces are characteristic of agricultural landscapes
in the French Alps and influence spatial and temporal snow pack
variables. At the Lautaret Pass, we investigated snow and soil
characteristics along mesotopographic gradients across the terraces
before and during snowmelt. Total N concentrations in the snowpack
did not vary spatially and were dominated by organic N forms either
brought by dry deposition trapped by the snow, or due to snow-microbial
immobilization and turnover. As expected, snowpack depth, total
n deposited with snow and snowmelt followed the terrace toposequence;
more snow-N accumulated towards the bank over longer periods.
However, direct effects of snow-N on soil-N cycling seem unlikely
since the amount of nitrogen released into the soil from the snowpack
was very small relative to soil-N pools and N mineralization rates.
Nevertheless, some snow-N reached the soil at thaw where it underwent
biotic and abiotic processes. In situ soil-N mineralization rates
did not vary along the terrace toposequence but soil-N cycling
was indirectly affected by the snowpack. Indeed, n mineralization
responded to the snowmelt dynamic via induced temporal changes
in soil characteristics (i.e. moisture and TK) which cascaded
down to affect N-related microbial activities and soil pH. Soil-NH4 and DON accumulated towards the bank during
snowmelt while soil-NO3 followed a pulse-release
pattern. At the end of the snowmelt season, organic substrate
limitation might be accountable for the decrease in n mineralization
in general, and in NH4+ production
in particular. Possibly, during snowmelt, other biotic or abiotic
processes (nitrification, denitrification, plant uptake, leaching)
were involved in the transformation and transfer of snow and soil-n
pools. Finally, subalpine soils at the Lautaret Pass during snowmelt
experienced strong biotic and abiotic changes and switched between
a source and a sink of N.
Keywords: Wet and dry N deposition; nitrate; Ammonium; Organic
N; Mineralization; Snow depth gradientx
Introduction
Materials and methods
@Study site
@Snow and soil survey
@Nitrogen analysis
@Statistical analysis
Results
@Soil temperature
@Nitrogen pools in snow
@Soil characteristics
@Soil nitrogen mineralization
Discussion
@Limited atmospheric N deposition occurred with snow
@Snow N inputs versus soil-N pools: does it matter?
@Soil parameters respond to snowmelt dynamics
@Soil-N pools and processes during snowmelt
@Soil-N processes and snow-N
Conclusions
Acknowledgments
References