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Chusnul ARIF Budi Indra SETIAWAN Hanhan Ahmad SOFIYUDDIN Lolly Martina MARTIEF Masaru MIZOGUCHI Ryoichi DOI 《水稻科学》2012,19(2):143-152
The current study proposes a novel method using Excel Solver to estimate,from limited data,crop coefficient(Kc) in paddy fields under intermittent irrigation(II).The proposed method was examined in a field experiment conducted at Karang Sari Village,Bekasi,West Java,Indonesia during the first rice season of 2007/2008(December 2007 to April 2008) in the rainy season.As the control,continuous flooding irrigation(CF) was applied to the conventional rice cultivation fields.Based on the observed water storage,Excel Solver was used to estimate crop evapotranspiration.Estimated crop evapotranspiration was used to compute Kc value,then the average Kc values at each growth stage were compared with that for the CF treatment.The estimation method was evaluated by comparing estimated crop evapotranspiration and the crop evapotranspiration derived by the well established FAO procedure.Excel Solver estimated crop evapotranspiration accurately with R2 values higher than 0.81.Accordingly,more than 81% of the FAO crop evapotranspiration was described by the proposed method.Thus,Kc value could be well determined from those estimated crop evapotranspiration.Under the II treatment,the average Kc values were 0.70,1.06,1.24 and 1.22 for the initial,crop development,reproductive and late stages,respectively.These values were lower than those under the CF treatment for initial and crop development stages because of a minimal soil evaporation and intense dryness during these stages.However,average Kc values under the II treatment were higher than those under the CF treatment at the reproductive and late stages,indicating that the II treatment promoted more plant activity particularly for dry biomass production as indicated by a greater number of tillers per hill. 相似文献
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Agussalim Matti Tyas Utami Chusnul Hidayat 《Journal Of Aquatic Food Product Technology》2013,22(7):781-793
The aim of the study was to isolate, select, and identify proteolytic lactic acid bacteria (LAB) from chao, a traditional fermented fish from Pangkajene and Kepulauan Regency, South Sulawesi, Indonesia. LAB was isolated by poured plate method. Proteolytic LAB were selected using agar skim milk media. Protease activity of LAB was determined based on the amount of tyrosine released in unit/mL. Proteolytic LAB were identified using API 50 CHL kit and 16S rRNA gene sequence analysis. The result showed that a total of 60 isolates were obtained from chao, and 57% of them were cocci-shape. Fifteen isolates were halotolerant proteolytic LAB. Their R values and protease activity were 2.11–3.39 and 0.267–0.304 U/mL, respectively. Identification by API 50 CHL kit showed that four rod-shape isolates were Lactobacillus plantarum, and two others were Lactobacillus curvatus. Cocci-shape isolates could not be identified as cocci bacterium. Rep-PCR results showed that there were two kinds of bands, namely thick and thin. Two isolates were selected from two types of bands that had the highest R for the analysis of 16S rRNA gene sequences, namely Ags1-3 and Ags7-3. The results showed that Ags1-3 isolate was identified as Lactobacillus plantarum and Ags7-3 as Pediococcus acidilactici. 相似文献
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Bayu Dwi Apri Nugroho Kazunobu Toriyama Kazuhiko Kobayashi Chusnul Arif Shigeki Yokoyama Masaru Mizoguchi 《Paddy and Water Environment》2018,16(4):715-723
System of rice intensification (SRI) has been disseminated in many countries because of its high yield, although the mechanism of yield increase has yet to be fully understood. The aims of this study were to clarify the actual water management of a skilled SRI farmer in irrigated paddy field of Indonesia and to examine the effect of intermittent water management on rice growth and yield. Yield and yield components were compared in the field experiments in the farmer’s fields under intermittent (SRI) or flooded (FL) irrigation for 4 years from 2013 to 2016. The daily mean water depth of SRI plots during 0–40 days after transplanting showed very shallow (ca. 2 cm) or little lower than soil surface and continued to be lower than soil surface during reproductive stage when panicles were formed. The yield of SRI significantly exceeded that of FL for 4 years by 13% (P?=?0.0004), so did the panicle numbers per area (P?=?0.036). The yield increase in SRI was associated with the increased number of panicles, which should have resulted from enhanced tiller development under shallow water level during the vegetative stage. The increased number of panicles was, however, counteracted by the reduced number of spikelets per panicle and resulted in nonsignificant increase in the spikelet density, defined as number of spikelets per unit area of crop. This dampening change in spikelet number per panicle could have been caused by limited supply of either nitrogen or carbohydrate during the panicle development stage under the intermittent water supply. A greater yield increase by SRI could be expected by improving nutrient or water management during the reproductive stage. 相似文献
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Muhammad Saleem ARIF Muhammad RIAZ Sher Muhammad SHAHZAD Tahira YASMEEN Shafaqat ALI Muhammad Javed AKHTAR 《土壤圈》2017,27(6):1049-1061
Legume plants are an essential component of sustainable farming systems. Phosphorus (P) deficiency is a significant constraint for legume production, especially in nutrient-poor soils of arid and semi-arid regions. In the present study, we conducted a pot experiment to evaluate the effects of a phosphorus-mobilizing plant-growth promoting rhizobacterial strain Bacillus cereus GS6, either alone or combined with phosphate-enriched compost (PEC) on the symbiotic (nodulation-N2 fixation) performance of soybean (Glycine max (L.) Merr.) on an Aridisol. The PEC was produced by composting food waste with addition of single super phosphate. The bacterial strain B. cereus GS6 showed considerable potential for P solubilization and mobilization by releasing carboxylates in insoluble P (rock phosphate)-enriched medium. Inoculation of B. cereus GS6 in combination with PEC application significantly improved nodulation and nodule N2 fixation efficiency. Compared to the control (without B. cereus GS6 and PEC), the combined application of B. cereus GS6 with PEC resulted in significantly higher accumulation of nitrogen (N), P, and potassium (K) in grain, shoot, and nodule. The N:P and P:K ratios in nodules were significantly altered by the application of PEC and B. cereus GS6, which reflected the important roles of P and K in symbiotic performance of soybean. The combined application of PEC and B. cereus GS6 also significantly increased the soil dehydrogenase and phosphomonoesterase activities, as well as the soil available N, P, and K contents. Significant positive relationships were found between soil organic carbon (C) content, dehydrogenase and phosphomonoesterase activities, and available N, P, and K contents. This study suggests that inoculation of P-mobilizing rhizobacteria, such as B. cereus GS6, in combination with PEC application might enhance legume productivity by improving nodulation and nodule N2 fixation efficiency. 相似文献
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Hasanah Nur Aini Iswati Setiawan Budi Indra Arif Chusnul Widodo Slamet Uphoff Norman 《Paddy and Water Environment》2019,17(3):485-495
Paddy and Water Environment - The System of Rice Intensification (SRI) is known as a climate-smart agricultural practice that increases rice production by changing the management of plants, soil,... 相似文献
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