Abstract:
Abstract: Tank Cascade Systems are associated with canal-bank vegetations that
support high biodiversity, habitats and provide ecosystem services, which should be
quantified to assist conservation and economic decision-making. The eco-tokens are
a virtual currency type, generated by the gross production of clean oxygen and the
sequestration of carbon during the early growth stages of a predefined set of plants.
These captured values are integrated into an IT platform, creating tradable assets. The
main objective of this study was to establish the gains in photosynthetic biomass (PB)
during the early growth phases of three common tree species: Diospyros malabarica,
Terminalia arjuna and Ficus racemose, associated within the tank cascade ecosys-
tems of dry and intermediate zone of Sri Lanka. The PB accumulation in the early
growth stages of the above tree species were collected from individuals found in the
reforested sites in Mahiyangana, Bibila, Monaragala and Padiyathalawa, Sri Lanka
representing the growth at 1st, 2nd, 3rd and 4th years with 60 individuals from each site
and age group totaling 720 individuals per plant species. The fresh weight was meas-
ured from collected leaves and analyzed to derive PB curves. Oxygen production (1g
of PB gives 0.4 g of oxygen) was quantified using the measured PB value applied to
a standard allometric equation. The PB and oxygen production had a significant rela-
tionship with age. The PB, and oxygen production demonstrated an exponential
growth after the 3rd year. Results showed that at the end of 4th year T. arjuna produced
the highest PB value, i.e., 1948.12 g and then 1550.92 and 246.92 g occupied by F.
racemose, D. malabarica, respectively. The findings will be used to generate eco-
tokens which are based on aggregate values of Regulatory Ecosystem Services (RES)
to establish an ecosystem services-based payback system to the Sri Lankan green
economic initiatives
