Abstract:
Maintenance of soil organic matter (OM) is essential due to rapid decomposition under
tropical conditions by soil microbial biomass. Measurement of microbial activity is
considered to reflect the OM decomposition rate. During the decomposition process,
organic carbon converts into CO2, which concentrates in the atmosphere resulting global
warming. Soil water repellency occurs by hydrophobicity might be a tool to reduce OM
decomposition by restricting microbial activity. The objectives of this study were to
_ examine the effects of water repellency on soil organic matter decomposition by soil
microorganisms. Air-dried and sieved surface soils of Red Yellow Podzolic soils
(Ultisols) from the research farm of the Faculty of Agriculture, University of Ruhuna
were mixed with powdered cattle manure (CM), goat manure (GM), Gliricidiamakulata
(GL) and Cassuarinaequisetifolia (CE) leaves. The rates used were, 5% of each and
with 2% CE+5% manure (CM, GM, GL), along with a control (no amended manure).
The OM contents were estimated by loss on ignition method and the microbial activity
by NaOH-C02 trapping method at 1, 3, 7 and 30 days intervals. Water repellency was
recorded using Water Drop Penetration Time (WDPT) test. Results revealed that OM
content decreased with increasing CO2 evolution. The CO2 evolution increased with a
decreasing rate, with time, showing higher logarithmic correlations (R2= 0.95, 1.00,
1.00, 0.97, 0.97, 0.98, 0.99 and 0.96, respectively, for control, GL, CE, CM, GM,
GL+CE, CM+CE and GM+CE samples). The highest C 0 2 evolution rate was observed
in GL samples and the lowest rate was found in CE 5% sample. This might be because
Gliricidia was hydrophilic (WDPT < 10 s) and Cassuarina was hydrophobic (WDPT >
50 s). The CM and GM amended samples (WDPT < 40s) also showed higher CO2
evolution than CE sample. Water repellency can be considered as a tool for farmers to
reduce OM decomposition to lower manure application cycles.
