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Dryad

Data from: Precipitation, soils, NPP, and biodiversity: resurrection of Albrecht's Curve

Cite this dataset

Huston, Michael A. (2012). Data from: Precipitation, soils, NPP, and biodiversity: resurrection of Albrecht's Curve [Dataset]. Dryad. https://doi.org/10.5061/dryad.9f3n1

Abstract

Climate and soils are widely recognized as major drivers of virtually all properties of ecosystems and communities. However, despite major advances in the understanding of soil formation and ecosystem dynamics, the effects of climate on soil properties are not widely appreciated. Understanding the effects of water availability on the rates of chemical and biological processes that affect soil formation can help clarify the global patterns of soil fertility, which affect agricultural and forest productivity, as well as biodiversity. Empirical tests of Albrecht's conceptual model of soil development and degradation using global climate and soil datasets and soil chronosequences confirm that soil total exchangeable bases (TEB), phosphorus, nitrogen and other components of soil fertility, along with plant productivity generally decline on older soils and under wetter conditions as precipitation exceeds potential evapotranspiration. The basic pattern of soil fertility in relation to water availability is a unimodal curve, with a maximum near or below a water balance of zero (annual precipitation - annual potential evapotranspiration). Analysis of global data by sub-regions reveals significant differences between temperate and tropical soil fertility distributions, as well as significant differences between continents. The low levels of soil nutrients (e.g., TEB, P, N) and plant productivity found on ancient soils or highly weathered soils in regions with high precipitation suggest that the positive effects of low productivity on plant diversity that have been observed at local and regional scales may also occur at the global scale.

Usage notes

Location

tropical
Paleotropics
temperate
Asia
Missouri
Africa
Madagascar
Kansas
Neotropics
Australia
North America
Global