Abstract:
Colocasia esculenta L. Schott (wild taro) is an emergent, perennial, aquatic and semi-aquatic
herbaceous species, belongs to the family Araceae. Though some varieties of this species are
edible, it has been notified as an invasive weed in different parts of the world including southeast
USA, Australia and some parts of Europe. In Sri Lanka, dense mono specific colonization of C.
esculenta can be observed in agricultural wetlands, specifically when they are abandoned for some
period. Once colonized in such an area C. esculenta spreads over the area with time, out-competing
other species abundant in the area. Hence, we investigated the role of soil moisture content and
nutrient availability biomass partitioning patterns of C. esculenta grown in agricultural wetlands
in Sri Lanka. Aboveground and belowground biomass was positively correlated with soil total
phosphorous content (TP) and soil moisture content. Correlation between soil nitrogen content and
plant biomass was weak. However, positive correlations between plant biomass and soil TP and
moisture content indicated that elevation in TP and/or moisture content result an increase in
biomass accumulation and increased plant sizes (taller plants and larger leaves). Water regime in
these wetlands is controlled by the availability Of" rainfall; hence soil moisture content in these
wetlands may vary accordingly. Since these are low-lying lands, these areas receive storm water
runoff with excessive nutrient loading in rainy season. It can lead to an elevation of TP and
moisture content in the same time, which may subsequently increase biomass accumulation of C.
esculenta in agricultural wetlands, Sri Lanka. Further, it has been observed that favorable growth
conditions and biomass accumulation will indirectly influence on reproductive traits positively,
which may result in an increase spreading of C. esculenta in Sri Lankan agricultural wetlands.