Follow
International Journal of Current Microbiology and Applied Sciences (IJCMAS)
Home Editorial Board Current Issue Special Issue Archives Indexing Submit Article
Instruction to Authors Manuscript Charges Copyright Form Model Manuscript Process Flow (Time Frame) FAQ
Reviewer Guidelines Selection of Reviewers Join our Team of Reviewers Apply as Reviewer Reviewer Login
Editorial Review Policy Embargo Policy Ethical Expectations Consent For Identifying Information Informed Consent Manuscript Withdrawal Policy Peer Review Process Plagiarism Policy Ethical Violations Appeal Policy Against Editorial Decision Advertising Policies Authorship Policy
Access Policies Authorship Publication Policy Publication Ethics Complaints Policy Confidential Information Conflicts of Interest Policy Consent for Copyrighted Material Copyright Policy Corrections and Retractions Digital Preservation Policy Research On Human And Animal Studies Open Access Policy
Publication Ethics Contact
IJCMAS is now DOI (CrossRef) registered Research Journal. The DOIs are assigned to all published IJCMAS Articles.
Index Copernicus ICI Journals Master List 2023 - IJCMAS--ICV 2023: 95.56 For more details click here
National Academy of Agricultural Sciences (NAAS) : NAAS Score: *5.38 (2020) [Effective from January 1, 2020] For more details click here

Join as a Reviewer

Login as a Reviewer

Indexed in



National Academy of Agricultural Sciences (NAAS)
NAAS Score: *5.38 (2020)
[Effective from January 1, 2020]
For more details click here
ICV 2023: 95.56
Index Copernicus ICI Journals Master List 2023 - IJCMAS--ICV 2023: 95.56
For more details click here
Announcement

See Guidelines to Authors
Current Issues
Download Publication Certificate

Original Research Articles                      Volume : 13, Issue:12, December, 2024
PRINT ISSN : 2319-7692
Online ISSN : 2319-7706
Issues : 12 per year
Publisher : Excellent Publishers
Email : editorijcmas@gmail.com /
submit@ijcmas.com
Editor-in-chief: Dr.M.Prakash
Index Copernicus ICV 2018: 95.39
NAAS RATING 2020: 5.38
Metrics and citations

Int.J.Curr.Microbiol.App.Sci.2024.13(12): 73-81
DOI: https://doi.org/10.20546/ijcmas.2024.1312.008


Comparison of Different Horticultural Components in Terms of Fish Equivalent Yield (FEY) for Promoting Intensive Farming System
Nilasree Borah1*, Sailen Gogoi1, Utpal Kotoky1, Bhabesh Gogoi2, Kaushik Das3 and Bibha Chetia Borah4
1Department of Horticulture, 2Department of Soil Science,
3Department of Crop Physiology,
4Fisheries Research Centre, Assam Agricultural University, Jorhat-785013, Assam, India
*Corresponding author
Abstract:

A field experiment was undertaken at the Fishery Research Centre, Assam Agricultural University, Jorhat-13, during 2020-2021 to study the “Contribution of ornamentals and non-ornamentals in promoting Intensive Farming System”. The experiment was carried out in bamboo stand consisting of two blocks per treatment (tier system) with five treatments in Randomized Block Design and replicated four times. The treatments were T0 {Fishery (Control)}, T1 (Fishery + Ornamental crops), T2 (Fishery + vegetable crops), T3 (Fishery + Medicinal and aromatic plants) and T4 (Fishery + Fruit crops). Media taken for the experiment was a mixture of Sand: Cocopeat: Vermicompost: Vermiculite: Perlite in a ratio of 1:2:2:0.25:0.25. The results revealed that all the treatment systems significantly influenced and contributed to the generation of income from the different horticultural crops in combination with fishery. In terms of yield generation i.e. the highest Fish Equivalent yield (FEY) of 250.84 kg was recorded in treatment T1 (Fishery + Ornamental crops).


Keywords: Intensive Farming System (IFS), Fish Equivalent Yield (FEY), Ornamental

References:

Barooah, A. and Datta, H. S. (2020). Response of nutrient management on growth, yield and quality of strawberry: A review. J PharmacognPhytochem. 9(5):3222-3228

Bhatt. B. P. and Bujarbaruah. K. M. (2007). Integrated intensive farming system: a sustainable approach of landuse in eastern Himalayas. Shaping Agrarian Prosperity through Integrated Intensive Farming. ICAR Research Complex for NEH Region, Umiam, Meghalaya, 1-26

Borah, B. C.; Das, A. J.; Gogoi, R. and Bordoloi, B. (2017). Technical viability of incorporation of low cost Aquaponics in Integrated Chicken-Fish Farming System. An Int. Quarterly J. Environ. Sci., 10:1-8

Borah. B. C.; Bhagobati A. K.; Baruah. U. K.; Gogoi H. K. and Nath, S. (1998). Integrated poultry-pig-?sh farming. J. Inland Fisheries Soc.,30(1): 39-46

Christopher, S.; Cohen, M.; Panteanella, E.; Stankus, A and Lovatelli, A. (2014). Small scale aquaponic food production, Integrated fish and plant farming, FAO Fisheries and Aquaculture Technical Paper 589, Food and Agricultural Organisations of United Nations,,ISSN 2070-7010.p.288

Dhanasekaran, D.; Ramya, K. and Sathappan, C. T. (2020). Performance of spider plant (Chlorophytum comosum) in modular vertical green walls under various media and nutrients. Annals of Plant and Soil Res.,22(4): 410-414 https://doi.org/10.47815/apsr.2020.10013

Erdelen, W. R. (2004). Resource Management for Sustainable Intensive Agriculture Systems. Ecological book series., 1:1-362

Giree, S. and Shreshtha, G. P. (2018). Comparative study of marigolds in soil and soilless media. Nepalese J. Agric. Sci.,17:73-77

Gogoi, P.; Dutta, S.; Gogoi, S. G.; saikia, R.; Singh, N. M.; Medhi, K.; Langthasa, S.; Mandal, D. and Mohapatra, S. (2021). Assessment of growth and yield attributes of chilli variety Arka Khyati in Dima Hasao district of Assam. The Pharma Innovation J., 10(7): 784-786

Gupta, L. N.; Singh, M. and Sharma, R. P. (2015). Evaluation of Integrated Horticulture-Cum- Fish Farming in Malwa Region of Madhya Pradesh, India. An Int. Res. J. Environ. Sci., 10(2) :667-671 http://dx.doi.org/10.12944/CWE.10.2.33

Indian Council of Agricultural Research, (2021). Package and practices for cultivation of Aloe vera. Selected Agricultural Technologies - A Compendium. https://krishi.icar.gov.in/PDF/Selected_Tech/horticulture/21-Horticulture-. 55-58

Karnataka state Medicinal Plants Authority. Mandukaparni Centella asiatica Linn. Syn. Hydrocotyle. https://karunadu.karnataka.gov.in/kampa/Documents/Mandukaparni.pdf

Kropi, J.; Gautam, B. P.; Phonglosa, A.; Kalita, C. D. (2018). Effect of plant growth regulator on growth and fruit yield of Brinjal. Int. J. Agric. Sci., 10(18):7199-7201

Kumar, U.; Sonkar, P. and Dhakad, D. (2020). Study on strawberry (Fragaria x ananassa Duch.) varieties for growth, fruit bio-chemical and yield parameters under western malwa plateau conditions of Madhya Pradesh. Journal of Pharmacognosy and Phytochemistry, 9(2): 1070-1073

Lal, B.; Gautam, P.; Panda, B. B.; Raja, R.; Singh, T.; Tripathi, R.; Shahid, M. and Nayak, A. K. (2017). Crop and varietal diversification of rainfed rice based cropping systems for higher productivity and profitability in Eastern India. PLoS One. 12(4): e0175709 https://doi.org/10.1371/journal.pone.0175709

Meena, J.; Chamola, B. P.; Rana, D. K. and Singh, K. K. 2018. Studies on Performance of French Bean (Phaseolus vulgaris L.) cv. Contender for Seed Production under Garhwal Himalayas. Int. J. Curr. Microbiol.App. Sci.,7(2): 676-681 https://doi.org/10.20546/ijcmas.2018.702.084

Nair, A. K.; Hebbar, S. S.; Prabhakar, M.; Senthilkumar, M. and Rajeshwari, R. S. (2020). Performance of Cabbage (Brassica oleracea L. var. capitata) in Relation to Fertigation using Variable Rates and Sources of Fertilizers. Int. J. Curr. Microbiol. App. Sci.,9(11): 940-950 https://doi.org/10.20546/ijcmas.2020.911.112

Panse V. G. and Sukhatme P. V. (1978). Statistical Methods for Agricultural Workers. Indian Council of Agricultural Research, New Delhi, pp. 552

Rahman, M. M.; Islam, M. N.; Roni, M. Z. K.; Gani, O. and Jamal Uddin, A. F. M. (2018). Vermicompost and Mustard oil cake as an alternative fertilizer for strawberry production. Int. J. Bus. Soc. Sci. Res.,6(3):78-84

Saha, S., Talukdar, M. C., Saikia, A. and Kalita, P. (2018). Standardisation of growing media and its depth for rooftop gardening of chrysanthemum (Dendranthema grandiflora Tzvelev) cv. Prof. Harris. Research on Crops. 19(2):259

Sarma, I.; Phukon, M.; Borgohain, R.; Goswami, J. and Neog, M. (2014). Response of french bean (Phaseolus vulgaris L.) to organic manure, vermicompost and biofertilizers on growth parameters and yield. The Asian Journal of Horticulture,9(2): 386-389. http://dx.doi.org/10.15740/HAS/TAJH/9.2/386-389

Sharifi, P., (2017). Sustainable Agriculture: And Introduction to Extensive and Intensive agriculture. J. Eng. Applied Sci.,12(10):2747-2751 http://dx.doi.org/10.3923/jeasci.2017.2747.2751

Soni, S.; Kanawjia, A.; Chaurasiya, R.; Chauhan, P. S.; Kumar, R. and Dubey, S. (2018). Effect of organic manure and biofertilizers on growth, yield and quality of strawberry (Fragaria x ananassa Duch) CV. Sweet Charlie. J. Pharmacogn Phytochem, 2:128-132

Download this article as Download

How to cite this article:

Nilasree Borah, Sailen Gogoi, Utpal Kotoky, Bhabesh Gogoi, Kaushik Das and Bibha Chetia Borah. 2024. Comparison of Different Horticultural Components in Terms of Fish Equivalent Yield (FEY) for Promoting Intensive Farming System.Int.J.Curr.Microbiol.App.Sci. 13(12): 73-81. doi: https://doi.org/10.20546/ijcmas.2024.1312.008
Copyright: This is an Open Access article distributed under the terms of the Creative Commons Attribution-NonCommercial-ShareAlike license.

Citations
Home | Terms of Use | Copyright Form 2012-2020 Copy rights reserved IJCMAS. Powered by ThinkNEXT Technologies