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Impact of high-density stocking and selective harvesting on yield and water productivity of deepwater rice-fish systems

Author

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  • Mohanty, Rajeeb K.
  • Jena, S.K.
  • Thakur, A.K.
  • Patil, D.U.

Abstract

We examine the productivity of deepwater rice-fish systems and management strategies that include high-density initial stocking and selective harvesting. All species of fish and prawns grow faster after 120 days of rearing, probably due to periodic selective harvesting that minimizes the competition for food and space, as well as physiological stress at reduced density. We observe a higher survival rate, a lower apparent feed conversion ratio (1.77) and higher fish yield (14.1%) in rice-fish culture with selective harvesting (T1) than in rice-fish culture without selective harvesting (T2). The highest paddy yield was recorded in T1, primarily due to the higher number of panicles per m2 (139.5) and the number of filled grains per panicle (111.5). The increase in paddy yield over rice mono-cropping was higher in T1 (25%) than T2 (16.9%). The smaller number of panicles (122.2/m2) and filled grains (98.5 per panicle) in rice mono-cropping was probably due to the absence of fish and prawns in the field as fish and prawns improve soil fertility, recover lost energy, and adjust energy flow by consuming plankton, weeds, insects and bacteria that compete with rice for nutrients. The highest rice equivalent yield (38.5tha-1), the output value-cultivation cost ratio (1.56) and net water productivity (Rs. 7.30/m3) in deepwater rice-fish culture was recorded when selective harvesting was practiced. This eco-friendly dual production system (rice and fish) and on-dyke horticulture, which generate near-term lucrative returns and generates employment opportunities, can be adopted and expanded in lowlands and waterlogged areas.

Suggested Citation

  • Mohanty, Rajeeb K. & Jena, S.K. & Thakur, A.K. & Patil, D.U., 2009. "Impact of high-density stocking and selective harvesting on yield and water productivity of deepwater rice-fish systems," Agricultural Water Management, Elsevier, vol. 96(12), pages 1844-1850, December.
    • Handle: RePEc:eee:agiwat:v:96:y:2009:i:12:p:1844-1850
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    Cited by:

    1. Yifan, Li & Tiaoyan, Wu & Shaodong, Wang & Xucan, Ku & Zhaoman, Zhong & Hongyan, Liu & Jiaolong, Li, 2023. "Developing integrated rice-animal farming based on climate and farmers choices," Agricultural Systems, Elsevier, vol. 204(C).
    2. Pei, Yongzhen & Chen, Miaomiao & Liang, Xiyin & Li, Changguo, 2019. "Model-based on fishery management systems with selective harvest policies," Mathematics and Computers in Simulation (MATCOM), Elsevier, vol. 156(C), pages 377-395.
    3. Erpeng Wang, 2023. "Revitalize Traditional Agriculture: Chinese Consumer Perception and Preference of “Modern” Organic and Sustainable Traditional Rice Products," Sustainability, MDPI, vol. 15(12), pages 1-12, June.
    4. Thakur, Amod K. & Mohanty, Rajeeb K. & Singh, Rajbir & Patil, Dhiraj U., 2015. "Enhancing water and cropping productivity through Integrated System of Rice Intensification (ISRI) with aquaculture and horticulture under rainfed conditions," Agricultural Water Management, Elsevier, vol. 161(C), pages 65-76.

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