Journal
ECOSYSTEMS
Volume 6, Issue 8, Pages 762-772Publisher
SPRINGER-VERLAG
DOI: 10.1007/s10021-003-0199-8
Keywords
fluvial erosion; Hawai'i; landscape evolution; nitrogen; nutrient availability; phosphorus; soil mineralogy; strontium isotopes; toposequence
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Studies of long-term soil and ecosystem development on static geomorphic surfaces show that old soils become depleted in most rock-derived nutrients. As they are depleted, however, static surfaces also are dissected by fluvial erosion. This fluvial erosion leads to colluvial soil transport on the resulting slopes, which in turn can rejuvenate the supply of weathering-derived nutrients to plants. We evaluated the influence of erosion and consequent landscape evolution on nutrient availability along a slope on the Island of Kaua'i, near the oldest, most nutrient-depleted site on a substrate age gradient across the Hawaiian Islands. Noncrystalline minerals characteristic of younger Hawaiian soils increased from 3% of the soil on the static constructional surface at the top of the slope to 13% on the lower slope, and the fraction of soil phosphorus (P) that was occluded (and hence unavailable) decreased from 80% to 56% at midslope. Foliar nitrogen and P concentrations in Metrosideros polymorpha increased from 0.82% and 0.062% to 1.13% and 0.083% on the constructional surface and lower slope, respectively. The increase in foliar P over a horizontal difference of less than 250 In represents nearly half of the total variation in foliar P observed over 4.1 million years of soil and ecosystem development in Hawai'i. The fraction of foliar strontium (Sr) derived from weathering of Hawaiian basalt was determined using Sr-87: Sr-86; it increased from less than 6% on the constructional surface to 13% and 31% on lower slope and alluvial positions. Erosional processes increase both nutrient supply on this slope and the fine-scale biogeochemical diversity of this old tropical landscape; it could contribute to the relatively high level of species diversity observed on Kaua'i.
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