ABSTRACT
In this study, we examined the effects of the age of erosional fluvial terraces of Makhtesh Ramon (Ramon crater) in the central Negev Desert on soil chemical and biological properties. There were significant effects of erosion age of these terraces on soil moisture, organic carbon, soil salinity, and electrical conductivity. It is known that soil biological activity in arid ecosystems is determined by well-known limiting factors such as soil moisture and organic matter. Significant (P < 0.002) differences in total nematode population and microbial biomass [(22.0–3.4 Cmic (µg C g−1 soil)] were observed between terraces. Biological activity of soils in lower and younger terraces was greater than in older and higher terraces. The ecophysiological status (qCO2) of the soil microbial community was found to decrease from a maximal value of 1.3 to 0.32 mg CO2‒C (gCmich)−1 along the terraces (from younger to older ones). This study illustrates the integrated effect of age, altitude, and the morphostratigraphic position of terraces on the biological activity of soils.
Acknowledgments
We would like to thank Mrs. Ginetta Barness for her useful help and technical assistance. We also thank the Israel Nature and National Parks Protection Authority for their permission to undertake this study.
Notes
SWC, soil water content; Corg, total organic carbon; TSN, total soluble nitrogen; EC, soil salinity.
Significant differences (P < 0.05) between sampling terraces are indicated by different letters (a, b, c).
SWC, soil water content; Corg, total organic carbon; TSN, total soluble nitrogen; EC, soil salinity.
*, **—Correlation coefficients significant at p < 0.05 and 0.01, respectively (n = 35).
*By classification of Yeates & King (Citation1997) and Liang et al. (Citation2000).