J. Henrot et L. Brussard, DETERMINANTS OF FLEMINGIA-CONGESTA AND DACTYLADENIA-BARTERI MULCH DECOMPOSITION IN ALLEY-CROPPING SYSTEMS IN THE HUMID TROPICS, Plant and soil, 191(1), 1997, pp. 101-107
Effects of soil macrofauna, micro-environment and mulch quantity were
investigated on an acid Ultisol in a high-rainfall area in S.E. Nigeri
a, using litterbags or littertubes with leaves from the trees of an al
ley cropping system with Flemingia congesta or Dactyladenia barteri as
hedgerow species. There was no effect of mulch quantity on the rate o
f decomposition. Soil macrofauna contributed to between 30 and 40% of
mulch decomposition over the period of approximately 50% of disappeara
nce of the original material. The faunal effect became apparent after
a longer incubation period (>20 weeks) with the slower decomposing Dac
tyladenia than with the Flemingia mulch (immediate effect). This is pr
esumably related to Dactyladenia's higher lignin content (40% compared
to 22% for Flemingia). The Flemingia mulch decomposed faster in alley
cropping with Dactyladenia hedgerow than with Flemingia hedgerow, irr
espective of faunal access, suggesting a microclimate efffect on decom
position. There were no marked changes in chemical composition of the
mulches with decomposition period, except for a rapid decrease of K co
ntent in both mulches and a rapid increase in lignin content of the Fl
emingia mulch within the first 10 days of decomposition, which indicat
es that early decomposition affected the relatively easily degradable
compounds.