Abstract:
Soybean (Glycine max: Fabaceae) is a mycotrophic (mycorrhizal) profitable crop that
is grown commercially for human consumption. At present soybean is one of the five
major grain legumes cultivated in Sri Lanka. A Greenhouse experiment was conducted to
determine the influence of mycorrhizae as a substitute for inorganic fertilizer on growth
and yield of Soybean and to determine how mycorrhizae inoculation to soybean effect in
drought tolerance and soil microbial activity.
Five soil amendments were tested: namely, Mycorrhizae + sterilized soil + compost
(Ti), Mycorrhizae + sterilized soil + standard dose of NPK (T2), Sterilized field soil + compost
(T3) and Sterilized field soil+ standard dose of NPK (T4), non sterilized soil (control-
T5). Standard dose of mycorrhizae (2g mycorrhizae/sL water) and NPK (NPK- 35:130:35)
were used. Each treatment was irrigated with three different water levels; 50 ml (Wi),
100 ml (W2) and 200 ml (W3) per day. Complete Randomized Design (CRD) with three
replicates was used. Statistical analysis was carried out using the Student Newman-Kuells
Means Separation Test of SAS program (9.1.3).
Significantly highest dry weight of seed/pod (3 g and 2.7 g respectively) observed ©n
plants grown in Mycorrhizae + sterilized soil + compost (Ti) and Mycorrhizae +strilized
soil + standard dose of NPK (T2). Mycorrhizae inoculation in soybean enhances the tolerability
of drought condition. Ti and T2 treatments were given the comparatively higher
values for the all measured growth parameters of soybean than the other treatments even
at low water levels.