PLANT GEOMETRY AND PHOSPHORUS MANAGEMENT IN LEGUME BASED INTERCROPPING UNDER UPLAND ECOSYSTEM
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Date
2018
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Publisher
Birsa Agricultural University, Ranchi, Jharkhand-6
Abstract
Poor fertility and productivity of rainfed upland soil and vagaries of monsoon in
Jharkhand compel to adopt diversified cropping system with low inputs requiring crops.
The acreage under pigeon pea, maize and black gram is increasing constantly by
replacing the area of rice under upland condition. It is well understood that phosphorus
plays a major role in realizing optimum productivity of crops, especially legumes. In the
acid lateritic soil, P-fixation is a major problem. Moreover, the costs of phosphatic
fertilizers are increasing day by day. Alternatively, use of Nano-P in crop production has
been newly recognized as an innovative phosphate supply system. Therefore, it is
imperative to explore the possibility of cost-effective P-management practices for
maximizing crop yield as well as to find out a suitable intercropping system with a short
duration legume like black gram grown as a component crop.
Keeping this in view, an experiment was conducted at BAU, Ranchi, during
kharif seasons of two consecutive years, 2016 and 2017. The soil was sandy-loam in
texture with low organic carbon (4.2 g kg-1), moderately acidic (5.4) in nature, low in
available nitrogen (171.7 kg ha-1),medium in phosphorus (23.21 kg ha-1) and potassium
(157.8 kg ha-1) as well as high in sulphur (12.9 kg ha-1). The experiment was laid out in
split-plot design with three replications. The treatments consisted of seven crop geometry
viz. C1-sole black gram, C2-sole pigeon pea, C3-sole maize, C4-pigeon pea + black gram
(1:1), C5-maize + black gram (1:1), C6-pigeon pea + black gram (1:2) and C7–maize +
black gram (1:2) in main plots and four phosphorus management practices viz. P1-
Control, P2-40 ppm Nano-P, P3- 50% recommended dose of phosphorus (RDP) +40 ppm
Nano- P and P4-100% RDP in subplots. Pigeon pea var. UPAS-120, black gram var.
Uttara and maize var. Suwan composite-1 were grown with 20:40:20:20, 20:40:20:20
and 120:60:40 kg/ ha N, P2O5, K2O and S, respectively.
Results revealed that intercropping of maize or pigeon pea with black gram crop
improved the growth parameters, yield attributes and yield of pigeon pea, maize and
black gram during both the years. Pigeon pea and black gram both under pigeon pea +
black gram (1:1) and maize under maize + black gram (1:1) intercropping system
recorded improved growth, yield and yield attributes compared to cultivation as sole
crop. Pigeon pea + black gram (1:1) recorded maximum BEY (1763 kg ha-1), LER
(1.64), net return (₹ 61209 ha-1), B:C ratio (1.63) and protein yield (405.4 kg ha-1) in the
system improving the different characters of pigeon pea (main crop) like maximum plant
height (199.6cm), dry matter (878 g m-2), LAI (1.62), no. of pod plant-1 (85.3), seeds pod-
1 (3.6), 1000-grain weight (93.72), grain yield (1162 kg ha-1), harvest index (18.00 %)
and protein content (22.88 %) in addition to no. of pod plant-1 (28.6), seeds pod-1 (6.8),
1000-grain weight (40.47), harvest index (23.46 %) and protein content (23.65 %) as
well as proportionate dry matter and grain yield (on the basis of population) in black
gram grown as intercrop.
However, maximum carbohydrate yield (2655 kg ha-1) was recorded under maize
+ black gram (1:1). Lower weed density and weed dry weight at 20 DAS and 40 DAS
were registered under all the intercropping system compared to sole pigeon pea or maize.
Reduction of weed dry weight in pigeon pea based intercropping system ranged from
10.11 to 10.73 % while 6.94 to 8.71% in maize based intercropping system compared to
their respective sole stand.
With regards to phosphorus management practices, application of 50% RDP + 40
ppm Nano-P recorded higher value of growth parameters, yield attributes and yield of
pigeon pea, maize and black gram along with the status of available P in soil throughout
the crop growth period compared to the application of Nano-P alone or no P and
remained at par with 100% RDP. Spraying of Nano-P @ 40 ppm only was not sufficient
to meet out the phosphorus requirement of the crops. Interaction between intercropping
system and phosphorus management was significant and it was found that maximum
BEY (1763 kg ha-1), protein yield (405.4 kg ha-1), total P uptake (2.7 g m-2), net return
(61209 ` ha-1) and B:C ratio (1.63) were recorded under the application of 50% RDP+40
ppm Nano-P in pigeon pea +black gram (1:1) system along with an added advantage of
improvement in most of the soil parameters like pH, organic carbon, available-N and K.
It may be concluded that for a viable intercropping system under rainfed upland
condition in achieving higher system productivity, profitability and sustainability, farmer
may prefer pigeon pea + black gram with (1:1) row ratio with 50% recommended dose of
phosphorus (20 kg/ha for each crop) + Nano phosphorus 40 ppm in addition to their
recommended N, K and S at 20 kg/ha in both the crops.
Description
PLANT GEOMETRY AND PHOSPHORUS MANAGEMENT IN LEGUME BASED INTERCROPPING UNDER UPLAND ECOSYSTEM
Keywords
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