RESPONSE OF POTASSIUM ON YIELD AND QUALITY OF SOYBEAN IN INCEPTISOL
RESPONSE OF POTASSIUM ON YIELD AND QUALITY OF SOYBEAN IN INCEPTISOL
Date
2013
Authors
Miss. Jamdade Pradnya Gulabrao
Journal Title
Journal ISSN
Volume Title
Publisher
POST GRADUATE INSTITUTE
Abstract
Potassium, an essential plant nutrient, has major role in
crop production including legumes crops like soybean. Reviews in the
literature on potassium application to soybean suggest that soybean
needs potassium, absorb it and response to potash fertilizers in terms
of yield and monetary returns. However, the Mahatma Phule Krishi
Vidyapeeth, Rahuri has completely ignored potassium in the
recommendation of general fertilizer prescription to soybean. Looking
to the present status average productivity (10.58 q ha-1) of
Maharashtra State and its comparison with the national (10.64 q ha-1)
and international average productivity of soybean, there is scope to
increase the state productivity of soybean with a application of
potassium to soybean. It is, therefore, the present experiment was
planed to ascertain the optimum dose of potassium to soybean in
Inceptisol for enhancing productivity of soybean in the state and to
make concrete suggestions to the University for reconsideration of recommendation of potash and their inclusion in general fertilizer
prescription dose to soybean.
With the above facts and views, a present field
investigation entitled, “Response of potassium on yield and
quality of soybean in Inceptisol ” was conducted at Post Graduate
Institute, Research Farm of Mahatma Phule Krishi Vidyapeeth, Rahuri
during kharif season, 2012-13 so as to find out the optimum dose of
potassium for maximum economic yield of soybean.
The field experiment was laid out in a randomized block
design with the seven treatments and four replications. The applied
treatments were : T1 (Absolute control); T2 (RD: 50:75:00 N:P2O5: K2O
kg ha-1); T3 (RD + 20 kg K2O ha-1); T4 (RD + 30 kg K2O ha-1); T5 (RD +
40 kg K2O ha-1); T6 (RD + 50 kg K2O ha-1) and T7 (RD + 60 kg K2O
ha-1).
The experimental soil was slightly alkaline in a reaction
(pH 8.01), low in electrical conductivity ( 0.41 dSm-1 ) and medium
in calcium carbonate content (6.5%), low in available nitrogen (155 kg
ha-1), phosphorus (12.80 kg ha-1) and medium in potassium (232 kg
ha-1) content.
The results obtained in the present investigation revealed
that the growth parameters viz., and plant height, number of
branches per plant, chlorophyll content, nodule count were
significantly influenced by various levels of potassium application. The
significant highest height (47.65 cm), number of branches (12.25),
chlorophyll content (53.71), effective nodules (24.16), number of pods
per plants (41), test weight(14.94 g) were observed in treatment of
application of RD+60 kg K2O ha-1(T7). The highest grain (31.62 q ha-1),
straw (40.80 q ha-1), protein (10.36 q ha-1) and oil (6.38 q ha-1) yield
were recorded under the same treatment of RD + 60 kg K2O ha-1 (T7).
The grain and straw yields were at par with treatments T6 (RD + 50 kg
K2O ha-1) and T5 (RD + 40 kg K2O ha-1) while the protein and oil yield
were at par with treatments T6, T5 and T4.
The total uptake of nitrogen, phosphorus and potassium
were significantly influenced by the potassium application and
maximum NPK uptake was observed in the treatment T7 (RD+60 kg
K2O ha-1) treatment and it was at par with treatments T6 and T5.
Increase levels of potash resulted in to increase in soil
fertility status after harvest of soybean with respect to all available
nutrients. However, treatments plots of available N and P decreased
over the initial status from all.
The highest soybean yield and quality were recorded in
treatment T7 however, the B:C ratio of soybean cultivation under
treatments of various levels of potash was found maximum (2.47) in
the treatment T6 followed by treatments T5 (2.46) and T7 (2.46). The
maximum monetary returns per Rs invested on potash fertilizer (Rs
6.93) was recorded by application RD + 40 kg K2O ha-1 to soybean.
Thus, from the above results of present study it can be concluded that
application of 40 kg K2O ha-1 along with recommended 50 kg N and 75
kg P2O5 is found most optimum dose of potash to soybean to harvest
maximum economical yield and quality of soybean in Inceptisol.