G. Jagadeesha, H. Prakasha, M. Shivakumara, K. Govinda, S. Yogananda
{"title":"富磷矿堆肥对高磷土壤谷子-豇豆种植顺序收获后土壤养分状况的评价","authors":"G. Jagadeesha, H. Prakasha, M. Shivakumara, K. Govinda, S. Yogananda","doi":"10.9734/ijpss/2021/v33i2430748","DOIUrl":null,"url":null,"abstract":"A field experiment was conducted at Zonal Agricultural Research Station, VC Farm, Mandya during kharif 2017, summer 2018, kharif 2018 and summer 2019 to study the effect of rock phosphate enriched compost on soil nutrient status after harvest of finger millet-cowpea cropping sequence. Prior to initiation of the field experiment, three different composts viz., urban solid waste compost (USWC), vermicompost and farm yard manure (FYM) were enriched with rock phosphate at 5 per cent. Field experiment consisting of eleven treatment combinations comprising recommended N and K, and P through varied levels of enriched composts. The experiment was laid out in RCBD design with three replications and the test crops were finger millet and cowpea. The initial P2O5 of the experimental site was very high (133.58 kg ha-1). The results revealed that application of recommended N and K + 75 per cent P supplied through enriched USWC (T5) had significantly higher organic carbon (0.56 and 0.58%) in pooled data of both finger millet and cowpea, respectively. Available N (241.94 and 224.86 kg ha-1), P2O5 (138.69 and 120.99 kg ha-1) and K2O (153.92 and 135.31 kg ha-1) were recorded significantly higher in T5 of finger millet and cowpea, respectively. Similarly, in pooled mean, exchangeable Ca [4.15 and 4.04 C mol (P+) kg-1] and Mg [2.16 and 2.05 C mol (P+) kg-1] were recorded significantly higher in treatment which received recommended N and K + 75 per cent P supplied through enriched vermicompost (T8) in both finger millet and cowpea, respectively. The decrease of available P2O5 was 20.98 per cent from initial (133.58 kg ha-1) to final crop (summer 2019) (105.55 kg ha-1).","PeriodicalId":14335,"journal":{"name":"International Journal of Plant & Soil Science","volume":"11 1","pages":""},"PeriodicalIF":0.0000,"publicationDate":"2021-12-06","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Evaluation of Rock Phosphate Enriched Compost on Soil Nutrient Status after Harvest of Finger Millet-Cowpea Cropping Sequence in High Phosphorus Soils of Cauvery Command Area, Karnataka\",\"authors\":\"G. Jagadeesha, H. Prakasha, M. Shivakumara, K. Govinda, S. 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The results revealed that application of recommended N and K + 75 per cent P supplied through enriched USWC (T5) had significantly higher organic carbon (0.56 and 0.58%) in pooled data of both finger millet and cowpea, respectively. Available N (241.94 and 224.86 kg ha-1), P2O5 (138.69 and 120.99 kg ha-1) and K2O (153.92 and 135.31 kg ha-1) were recorded significantly higher in T5 of finger millet and cowpea, respectively. Similarly, in pooled mean, exchangeable Ca [4.15 and 4.04 C mol (P+) kg-1] and Mg [2.16 and 2.05 C mol (P+) kg-1] were recorded significantly higher in treatment which received recommended N and K + 75 per cent P supplied through enriched vermicompost (T8) in both finger millet and cowpea, respectively. 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引用次数: 0
摘要
本试验于2017年收获季、2018年夏季、2018年夏季和2019年夏季在Mandya VC农场区域农业研究站进行,研究了磷矿肥堆肥对手指粟-豇豆种植顺序收获后土壤养分状况的影响。在田间试验开始之前,三种不同的堆肥,即城市固体废物堆肥(USWC),蚯蚓堆肥和农场院子粪便(FYM)用5%的磷肥进行强化。田间试验包括11种处理组合,包括推荐的N和K,以及通过不同水平的强化堆肥的P。试验采用RCBD设计,3个重复,试验作物为谷子和豇豆。试验点初始P2O5含量很高(133.58 kg ha-1)。结果表明,施用推荐氮和通过富集USWC (T5)提供的K + 75% P,在汇总数据中,谷子和豇豆的有机碳含量分别显著提高(0.56%和0.58%)。谷子和豇豆T5的有效氮(241.94和224.86 kg ha-1)、P2O5(138.69和120.99 kg ha-1)和K2O(153.92和135.31 kg ha-1)均显著高于对照。同样,在混合平均中,谷子和豇豆中分别施用推荐氮和K + 75%磷处理的交换性Ca[4.15和4.04 C mol (P+) kg-1]和Mg[2.16和2.05 C mol (P+) kg-1]显著高于富集蚯蚓堆肥(T8)。有效P2O5从初始(133.58 kg ha-1)到最终作物(2019年夏季)(105.55 kg ha-1)减少了20.98%。
Evaluation of Rock Phosphate Enriched Compost on Soil Nutrient Status after Harvest of Finger Millet-Cowpea Cropping Sequence in High Phosphorus Soils of Cauvery Command Area, Karnataka
A field experiment was conducted at Zonal Agricultural Research Station, VC Farm, Mandya during kharif 2017, summer 2018, kharif 2018 and summer 2019 to study the effect of rock phosphate enriched compost on soil nutrient status after harvest of finger millet-cowpea cropping sequence. Prior to initiation of the field experiment, three different composts viz., urban solid waste compost (USWC), vermicompost and farm yard manure (FYM) were enriched with rock phosphate at 5 per cent. Field experiment consisting of eleven treatment combinations comprising recommended N and K, and P through varied levels of enriched composts. The experiment was laid out in RCBD design with three replications and the test crops were finger millet and cowpea. The initial P2O5 of the experimental site was very high (133.58 kg ha-1). The results revealed that application of recommended N and K + 75 per cent P supplied through enriched USWC (T5) had significantly higher organic carbon (0.56 and 0.58%) in pooled data of both finger millet and cowpea, respectively. Available N (241.94 and 224.86 kg ha-1), P2O5 (138.69 and 120.99 kg ha-1) and K2O (153.92 and 135.31 kg ha-1) were recorded significantly higher in T5 of finger millet and cowpea, respectively. Similarly, in pooled mean, exchangeable Ca [4.15 and 4.04 C mol (P+) kg-1] and Mg [2.16 and 2.05 C mol (P+) kg-1] were recorded significantly higher in treatment which received recommended N and K + 75 per cent P supplied through enriched vermicompost (T8) in both finger millet and cowpea, respectively. The decrease of available P2O5 was 20.98 per cent from initial (133.58 kg ha-1) to final crop (summer 2019) (105.55 kg ha-1).
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