A field experiment conducted during kharif season of the year 2015 at Agronomy Instructional Farm, C.P. College of Agriculture, Sardar krushinagar Dantiwada Agricultural University, Sardar krushinagar Gujrat. Application of T9 (50% N through castor cake + 50% N through vermicompost + PSB) and T10: (RDF: 20+40+00 kg ha-1 NPK through fertilizer) recorded higher plant growth and development. Remarkable increase in yield attributes and seed yield (1033 kg/ha) were noted with an application of 50% N through castor cake + 50% N through vermicompost + PSB (T9). Significant improvement in protein content in seed and protein yield, N content in seed, Stover yield and N uptake by cowpea were noted with application of 50% N through FYM + 50% N through vermicompost + PSB (T8), whereas, higher N content in stover and P content in seed were recorded under treatment T9 (50% N through castor cake + 50% N through vermicompost + PSB). Treatment T10 (RDF: 20+40+00 kg ha-1 NPK through fertilizer) realized higher net realization (42371ha-1) and BCR (2.83) because organic fertilizer per unit cost higher than inorganic fertilizer
Background: Pigeon pea [Cajanus cajan (L.) Millsp] is the sixth most important food legume of the world and grown on about 5 million hectares globally in about 50 countries. India has the largest area (4 million ha.) under pigeon pea and accounts for about 80 per cent of area of the world. Methods: A field experiment was conducted during kharif season of 2015-16 at Mahatma Gandhi Chitrakoot Gramodaya Vishwavidyalaya, Chitrakoot, Satna (M.P.) to find out the suitable pigeon pea based inter cropping system and their nutrient management. The 16 treatments were tested in split plot design in which 6 cropping system were kept in main plot and 2 fertility levels in sub plots. Result: Result showed that sole pigeon pea, sole black gram, sole green gram and sole sesame produced significantly higher seed and stover yield over intercropped mean. Under cropping system, yield attributes wear at par but the maximum grain yield of (744 kg ha-1) was recorded under pigeon pea + black gram (1:1) alternate rows but stover yield (3910 kg ha-1) in pigeon pea + sesame (1:1) alternate rows. As regards, the fertility levels, the yield contributing characters and yields were higher in 125% Recommended dose of Fertilizers (RDF). Intercropped black gram and intercropped green gram formed almost similar yield attributes and yields under both cropping system (1:1 and 2:2). The application of 125% RDF produced better yields attributes and yields of black gram and green gram. Intercropped and sole sesame produced and statistically equal yield contributes but seed and stover yields of sesame sole was significantly higher them intercropped sesame. Application of 125% RDF had superior yield attributes and yields of sesame. Pigeon pea + green gram (1:1 row ratio) with 125% RDF maximised the pigeon pea grain equivalent yield of 1505 kg ha-1, land equivalent ratio (1.65), net profit of ₹ 84826 per ha and benefit : cost ratio (4.68) followed by pigeon pea + green gram (2:2 row ratio) with 125% RDF.
Background: Pulses are an integral part of many diets across the globe and they have great potential to improve human health, conserve our soils, protect the environment and contribute to global food security. The United Nations declared 2016 as the “International Year of Pulses” (IYP) to heighten public awareness of the nutritional benefits of pulses as part of sustainable food production aimed at food security and nutrition. India is the largest producer, consumer, and importer of pulses in the world. Pigeonpea [Cajanus cajan (L.) Millsp.] is one of the major grain legume (pulse) crops of the tropics and subtropics, endowed with several unique characteristics. It finds an important place in the farming system adopted by smallholder farmers in a large number of developing countries. Although globally pigeon pea ranks sixth in area and production in comparison to other grain legumes such as beans, peas and chickpeas, it is used in more diversified ways than others. Methods: A field experiment was conducted at Mahatma Gandhi Chitrakoot Gramodaya Vishwavidyalaya, Chitrakoot, Satna (M.P.) during the K season of 2015-16 to evaluate the effect of organic manures and inorganic fertilizers on yield attributes, yield and economics of pigeon pea. Treatment comprised three organic manures (FYM @ 10 t/ha, Nadep compost @ 10 t/ha and vermin-compost @ 5 t/ha) and three levels of inorganic fertilizers (control, 100 and 50% RDF). Thus treatments were tested in a 3-replicated split plot design. Result: The result revealed that the number of pods/plant, seeds/pod, pod length, and seed yield/plant were statistically similar in all tested organic manures but the application of vermicompost @ 5 t/ha, significantly improved the 100- seed weight. It also produced a significantly maximum seed yield of 1337 kg/ha, stover yield of 6220 kg/ha and net returns of Rs. 51727/ha. Control and use of 50 and 100% RDF in organic fertilizers gave statistically equal yield attributes (pods/plant, pod length and seeds/pod), seed yield, stover yield, gross returns and net returns of pigeon pea. The seed weight/plant and 100 seed weight were maximum under 100% RDF than control.
Background: Cowpea [Vigna unguiculata (L.) Walp] is most widely grown pulse-cum-vegetable crop. It plays an important role in maintaining soil fertility. Besides, nitrogen which is fixed in the soil from the atmosphere by the crop specific Rhizobium found in root nodules of this crop, phosphorus is another important element which inter-alia enhances the nitrogen fixation capability of the crop. In addition to biologically fixed nitrogen, crop also requires nitrogen through fertilization to meet its initial requirement (Mishra and Baboo, 1999). Methods: A field experiment was on conducted during kharif season of the year 2015 at Agronomy Instructional Farm, C.P. College of Agriculture, Sardarkrushinagar Dantiwada Agricultural University, Sardarkrushinagar Gujarat. The experiment was laid out in randomized block design with four replications and 10 treatments comprising of integration of different organic sources. Result: Our investigation in the significant improvement in N content in seed and N uptake by cowpea were noted with the application of 50% N through FYM + 50% N through vermicompost + PSB (T8), whereas, higher N content in stover and P content in seed were recorded under treatment T9 (50% N through castor cake + 50% N through vermicompost + PSB) and T10: RDF (20+40+00 kg ha-1 NPK through Fertilizer), respectively. Treatment T10 contributed to raise potassium content in seed, uptake of P and K by cowpea and available NPK in soil after harvest of crop.
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