Abstract:
Continuous cultivation of tea plants in the same soil and excessive use of agrochemicals can lead to
a decline in the physical, chemical, and biological properties of the soil in tea plantations. As a
solution, bamboo biochar has gained popularity among tea planters as an eco-friendly, cost-effective
organic soil amendment. The main objectives of this study were to (a) Evaluate the ability of bamboo
biochar for the growth performances of young and mature tea plants, (b) determine the most suitable
particle size and the rate of application of bamboo biochar and (c) determine the ability of used
organic activator and the concentration of the activator that can be used for charging bamboo
biochar. In this study, bamboo biochar was prepared using the drum method and applied to the field
using a randomized complete block design, with nine treatments based on three application rates
(25g {X1}, 37.5g {X2}, and {X3}50g/plant) and three particle sizes (2mm {S1}, 4mm {S2}, and 8mm
{S3}). Young plants were evaluated for increases in plant height, leaf number, primary and secondary
branches, and leaf chlorophyll content, while mature plants were only assessed for changes in yield
and leaf chlorophyll content. The data collected was analyzed using SAS statistical software and the
best treatment combinations for each parameter were determined through mean separation using
the Duncan Multiple Range test. The statistical analysis revealed that all parameters were
significantly affected by the treatments. S1X1 (25g/plant with 2mm) was the best treatment for the
increment of secondary branches in tea plants. Best treatment combination for the increment of the
mature plant leaf chlorophyll content was S1X3 (2mm with 50g/plant). However, the limited
application period was the main reason for minimum significant results for each parameter.