@Research Paper
<#LINE#>Agriculture Spiders (Araneae) from Vijapur Taluka, North Gujarat, India<#LINE#>B.M. @Parmar <#LINE#>1-5<#LINE#>1.ISCA-RJAFS-2023-019.pdf<#LINE#>Central Laboratory, Dudheswar Water Works, Ahmedabad Municipal Corporation, Ahmedabad, Gujarat, India<#LINE#>19/9/2023<#LINE#>13/7/2024<#LINE#>The survey of order: Araneae was done in the agricultural area of Vijapur Taluka, Mahesana district, North Gujarat. The spider samples collection and survey were conducted from 2016 to 2018, using handpicking method. Hundred spider species and sixty-two genera, with nineteen families were identified from collections. In which, families Araneidae and salticidae were numerically dominant compared to others. In collected specimens, thirty-four species were web builders, and sixty-six species were non-web builders. The study area was connected to a forest and wasteland area, which provided an alternative habitat for the spider community. In this way, alternative habitats were conserved for spider communities, whenever agricultural areas were disturbed due to farming.<#LINE#>Parmar B. M. (2018). Taxonomic and Ecological study of Spiders from Satlasana Taluka, Gujarat, India. Ph.D. Thesis, H.N.G.University@undefined@undefined@Yes$Sebastian P. A., & Peter, K. V. (Eds.). (2009). Spiders of India. Universities press.@undefined@undefined@Yes$Tikader B. K. (1981). Spider fauna of Calcutta and vicinity, Pt. 1. Rec. zool. Surv. India, Occ. Pap., 30, 1-148.@undefined@undefined@Yes$Tikader B. K. (1987). Handbook, Indian spiders. The Survey.@undefined@undefined@Yes$Yadav A., Solanki R., Siliwal M., & Kumar,D. (2017). Spiders of Gujarat: a preliminary checklist. Journal of Threatened Taxa, 9(9), 10697-10716.@undefined@undefined@Yes$Keswani S., Hadole, P., & Rajoria, A. (2012). Checklist of Spiders (Arachnida: Araneae) from India-2012. Indian journal of Arachnology, 1(1), 129.@undefined@undefined@Yes$Catalog W. S. (2017). World Spider Catalog. Natural History Museum Bern.@undefined@undefined@Yes$Patel, B. H. (2003). Fauna of protected areas of India-I: Spiders of Vansda National Park, Gujarat. Zoos@undefined@undefined@Yes$Parmar, B. M., & Patel, K. B. (2015). Preliminary study of spiders (Order: Araneae) from Taranga Hills.  International Journal of Science and Research,  6(11), 23-25.@undefined@undefined@Yes$Parmar, B. M., & Patel, K. B. (2018). Jumping spiders (Araneae: Salticidae) of Satlasana Taluka. International Journal of Advanced Engineering Research and Science, 5(3), 159-162.@undefined@undefined@Yes$Parmar, B. M., Nagral, N., Joshi, V., Baria, K., & Pawar, C. (2007). Some Spiders from in and around the Caves of Taranga Hills, Mahesana, Gujarat, India. Journal of Pharmaceutical and Biomedical Analysis, 43(4), 1470-1475.@undefined@undefined@Yes
<#LINE#>Effects of root inducing agents on rooting performance of Vitex diversifolia stem cuttings<#LINE#>Titus Fondo @Ambebe <#LINE#>6-10<#LINE#>2.ISCA-RJAFS-2024-007.pdf<#LINE#>Department of Forestry and Wildlife Technology, College of Technology, The University of Bamenda, Bambili, Cameroon<#LINE#>23/8/2024<#LINE#>11/10/2024<#LINE#>This study examined the comparative effect of potential rooting promoting substances on rooting of Vitex diversifolia semi-hardwood cuttings. Treatments were comprised of a negative (untreated) and positive (Indole-3-Butyric Acid, IBA) control, aloe vera gel (AV), coconut water (CW), and AV+CW in the ratio 1:1 (v/v). Data on root production and growth were collected four months after the application of treatments. Results indicated an absence of rooting of cuttings in the negative control. Rooting percentage was highest in AV+CW and lowest in the AV treatment which did not show a significant difference with either the controls or CW. In contrast, values of number of primary roots were highest in AV and lowest in IBA. Number of secondary roots, root system length and root fresh weight were significantly reduced by IBA. Root diameter was unresponsive to the treatments. The findings suggest that biostimulators are essential factors for rooting of Vitex diversifolia cuttings. While treatment with IBA, AV, and CW may have a comparable influence on rooting percentage, the combination of AV and CW may be a more potent promoter of the trait. In addition, the application of IBA may be less beneficial than the plant extracts for number and growth of roots.<#LINE#>Arbonnier, M. (2004). Trees, shrubs and lianas of West African dry zones.@undefined@undefined@Yes$Ruffo, C. K., Birnie, A. and Tengnäs, B. (2002). Edible wild plants of Tanzania. RELMA Technical Handbook Series 27, Nairobi, Kenya: Regional Land Management Unit (RELMA), Swedish International Development Cooperation Agency (Sida). 766 p. ISBN: 9966-896-62-7.@undefined@undefined@Yes$Ndenecho, E. N. (2010). Implications of fuel wood yield, availability and harvest in Tubah Mountain Forest, Cameroon. Global Journal of Human Social Science, 10(3), 49-55.@undefined@undefined@Yes$Ch. Nébié, R. H., Yaméogo, R. T., Bélanger, A., & Sib, F. S. (2005). Chemical composition of essential oils of Vitex diversifolia Bak. from Burkina Faso. Journal of Essential Oil Research, 17(3), 276-277.@undefined@undefined@Yes$Plants, U. T. (2020). Useful tropical plants database. K Fern.@undefined@undefined@Yes$Maydell, H. J. V. (1990). Trees and Shrubs of the Sahel-their characteristics and Uses.@undefined@undefined@Yes$Ndenecho, E. N. (2011). Local livelihoods and protected area management: Biodiversity conservation problems in Cameroon. African Books Collective.@undefined@undefined@Yes$Assi-Kaudjhis, C., & Blanco, J. A. (2012). Vegetation evolution in the mountains of Cameroon during the last 20 000 years: pollen analysis of Lake Bambili sediments. Forest Ecosystems–More Than Just Trees, 137.@undefined@undefined@Yes$Kometa, S. S. (2013). Wetlands exploitation along the Bafoussam–Bamenda road axis of the Western Highlands of Cameroon. Journal of Human Ecology, 41(1), 25-32.@undefined@undefined@Yes$Sedláček, O., Mikeš, M., Albrecht, T., Reif, J., & Hořák, D. (2014). Evidence for an edge effect on avian nest predation in fragmented afromontane forests in the Bamenda-Banso Highlands, NW Cameroon. Tropical Conservation Science, 7(4), 720-732.@undefined@undefined@Yes$Santoso, B. B., & Parwata, I. G. A. (2014). Seedling growth from stem cutting with different physiological ages of Jatropha curcas L. of West Nusa Tenggara genotypes. International Journal of Applied, 4(6).@undefined@undefined@Yes$Awotedu, B. F., Omolola, T. O., Akala, A. O., Awotedu, O. L., & Olaoti-Laaro, S. O. (2021). Vegetative propagation: A unique technique of improving plants growth. World News of Natural Sciences, 35, 83-101.@undefined@undefined@Yes$Leakey, R. R. (2004). Physiology of vegetative reproduction. Academic Press.@undefined@undefined@Yes$Dubois, L. A., & De Vries, D. P. (1991). Variation in adventitious root formation of softwood cuttings of Rosa chinensis minima (Sims) Voss cultivars. Scientia horticulturae, 47(3-4), 345-349.@undefined@undefined@Yes$Washa, W. B. (2014). Effective cutting type in the rooting of Dalbergia melanoxylon in Tanzania.@undefined@undefined@Yes$Hartmann, H. T., & Kester, D. E. (1959). Plant propagation: principles and practices.@undefined@undefined@Yes$Ambebe, T. F., Akenji, M. J., & Mogho, N. M. T. (2017). Growth responses of branch cuttings of Cordia africana to physiological age. Journal of Horticulture and Forestry, 9(10), 91-97.@undefined@undefined@Yes$Ashiono, F. A., Wangechi, H. K., & Kinyanjui, M. J. (2017). Effects of sawdust, forest soil and cow dung mixtures on growth characteristics of blue gum (Eucalyptus saligna) seedlings in South Kinangop Forest, Nyandarua, Kenya.@undefined@undefined@Yes$Dawa, S., Rather, Z. A., Tundup, P., & Tamchos, T. (2017). Effect of growth regulators and growth media on rooting of semi hardwood cuttings of rose root stocks. Int. J. Curr. Microbiol. App. Sci, 6(4), 1042-1051.@undefined@undefined@Yes$Ibrahim, M. E., Mohamed, M. A., & Khalid, K. A. (2015). Effect of plant growth regulators on the rooting of lemon verbena cutting. Journal of Materials and Environmental Science, 6(1), 28-33.@undefined@undefined@Yes$Younis, A. and Riaz, A. (2005). Effect of various hormones and different rootstocks on rose propagation. Caderno de Pesquisa Serie Biologia, 17(1), 111-118.@undefined@undefined@Yes$Tan, S. N., Yong, J. W. H., & Ge, L. (2014). Analyses of phytohormones in coconut (Cocos nucifera L.) water using capillary electrophoresis-tandem mass spectrometry.  Chromatography, 1(4), 211-226.@undefined@undefined@Yes$El Sherif, F. (2017). Aloe vera leaf extract as a potential growth enhancer for Populus trees grown under in vitro conditions. American Journal of Plant Biology, 2(4), 101-105.@undefined@undefined@Yes$Yong, J. W., Ge, L., Ng, Y. F., & Tan, S. N. (2009). The chemical composition and biological properties of coconut (Cocos nucifera L.) water. Molecules, 14(12), 5144-5164.@undefined@undefined@Yes$Dunsin, O., Ajiboye, G., & Adeyemo, T. (2014). Effect of alternative hormones on the rootability of parkia biglobosa. Journal of Agriculture, Forestry and the Social Sciences, 12(2), 69-77.@undefined@undefined@Yes$Hilaire, R. S., Berwart, C. A. F., & Pérez-Muñoz, C. A. (1996). Adventitious root formation and development in cuttings of Mussaenda erythrophylla L. Schum. & Thonn. Hort Science, 31(6), 1023-1025.@undefined@undefined@Yes$Jackson, J. C., Gordon, A., Wizzard, G., McCook, K., & Rolle, R. (2004). Changes in chemical composition of coconut (Cocos nucifera) water during maturation of the fruit. Journal of the Science of Food and Agriculture,  84(9), 1049-1052.@undefined@undefined@Yes$Gopikrishna, V., Baweja, P. S., Venkateshbabu, N., Thomas, T., & Kandaswamy, D. (2008). Retracted: Comparison of Coconut Water, Propolis, HBSS, and Milk on PDL Cell Survival.@undefined@undefined@Yes
<#LINE#>Effect of Water Quality and Irrigation Frequency on Growth of Melia dubia under sole plantation in Rewari district, Haryana, India<#LINE#>Pradeep @Kumar,Dinesh @Kumar <#LINE#>11-20<#LINE#>3.ISCA-RJAFS-2024-008.pdf<#LINE#>Silviculture Discipline, Silviculture and Forest Management Division, FRI, Dehradun - 248006, Uttarakhand, India@Silviculture Discipline, Silviculture and Forest Management Division, FRI, Dehradun - 248006, Uttarakhand, India<#LINE#>25/8/2024<#LINE#>13/10/2024<#LINE#>Water quality and irrigation frequency play pivotal roles in the growth and development of vegetation, especially in arid and semi-arid regions. This research investigates the impact of water quality (tube well water, untreated wastewater from a local pond, and treated wastewater from the same pond) and irrigation frequency (6 times, 9 times, and subsistence irrigation per year) on the growth of Melia dubia under sole plantation in Rewari district, Haryana, India. The study, conducted from September 2021 to August 2022, employed a factorial Randomized Block Design with three replications. Results indicate that the maximum growth in plant height (225.73cm) and collar diameter (27.37mm) was observed when plants were irrigated with treated wastewater from the local pond at a frequency of nine times per year i.e. T8 (W3I2). In contrast, minimum growth in plant height (102.37 cm) occurred when plants were irrigated with tube well water at frequency once a year i.e. T3 (W1I3) and minimum growth in collar diameter (14.46mm) occurred when plants were irrigated with treated wastewater from local pond at frequency once in a year viz., T9 (W3I3). Statistical analysis revealed significant differences in growth parameters among treatments, emphasizing the influence of water quality and irrigation frequency. The study underscores the potential of using wastewater, when appropriately treated, as a sustainable irrigation source for forest tree plantations. The findings suggest that treated wastewater, rich in nutrients, can significantly enhance plant growth. Additionally, the research highlights the adaptability and rapid growth of Melia dubia, emphasizing its suitability for agroforestry and its diverse industrial applications, such as pulp and paper production.<#LINE#>Heart of Agriculture (2013). Water – The Lifeline for Sustainable Farming. Ritu Kumari Vashishtha and Mukesh Kumar.@undefined@undefined@No$Alexakis, D., & Tsakiris, G. (2010). Drought impacts on karstic spring annual water potential. Application on Almyros (Crete) brackish spring. Desalination and Water Treatment, 16(1-3), 229-237.@undefined@undefined@Yes$El-Amier, Y. A., Kotb, W. K., Bonanomi, G., Fakhry, H., Marraiki, N. A., & Abd-ElGawad, A. M. (2021).  Hydrochemical assessment of the irrigation water quality of the El-Salam Canal, Egypt. Water, 13, 2428.@undefined@undefined@Yes$Gola, D., Bhattacharya, A., Dey, P., Malik, A., & Ahammad, S. Z. (2020). Assessment of drain water used for irrigation in the Delhi region. Journal of Health and Pollution, 10(26), 200610.@undefined@undefined@Yes$Gabr, M. (2018). Evaluation of irrigation water, drainage water, soil salinity, and groundwater for sustainable cultivation. Irrigat Drainage Sys Eng, 7(3), 224.@undefined@undefined@Yes$Nasr, M., & Zahran, H. (2015). Assessment of agricultural drainage water quality for safe reuse in irrigation applications-a case study in Borg El-Arab, Alexandria. Journal of Coastal Life Medicine, 3(3), 241-244.@undefined@undefined@Yes$Güngör, A., & Arslan, H. (2016). Assessment of water quality in drainage canals of Çarşamba plain, Turkey, through water quality indexes and graphical methods.@undefined@undefined@Yes$Mekonnen, S. A. (2012). Irrigation frequency and plant density affect phenology and crop growth of haricot bean (Phaseolus vulgaris L.). Afr. J. Plant Sci, 6, 34-39.@undefined@undefined@Yes$Adejumobi, M. A., S. K. Aremu, D. O. Idowu. and O. I, Ojo. (2015). Effects of irrigation frequency and manure on growth parameters, crop coefficient and yield of Okra (Abelmoscus esculeutus). Environ. Eart. Sci., 5, 18.@undefined@undefined@Yes$Katsoulas, N., Kittas, C., Dimokas, G., & Lykas, C. (2006). Effect of irrigation frequency on rose flower production and quality. Biosystems engineering, 93(2), 237-244.@undefined@undefined@Yes$Eiasu, B. K., J. M., Steyn and P., Soundy. (2012). Physiomorphological response of rose-scented geranium (Pelargonium spp.) to irrigation frequency. S. Afr. J. Bot., 78, 96-103.@undefined@undefined@Yes$Pires, R. C. M., P. R. Furlani, R. V. Ribeiro., D. B. Junior., E. Sakai., A. L. Lourenção and A. T. Neto. (2011). Irrigation frequency and substrate volume effects in the growth and yield of tomato plants under greenhouse conditions. Sci. Agric. (Piracicaba, Braz.), 68(4), 400-405.@undefined@undefined@Yes$Rodriguez-Ortega, W. M., V. Martinez, R. M. Rivero, J. M. Camara-Zapata, T. Mestre and F. Garcia-Sanchez (2016). Use of a smart irrigation system to study the effects of irrigation management on the agronomic and physiological responses of tomato plants grown under different temperatures regimes. Agric. Water Manage., 183, 158-168.@undefined@undefined@Yes$Tsirogiannis, I., N. Katsoulas, and C. Kittas. (2010). Effect of irrigation scheduling on gerbera flower yield and quality. Hort. Sci., 45(2), 265-270.@undefined@undefined@Yes$Parthiban, K. T., Bharathi, A. K., Seenivasan, R., Kamala, K., & Rao, M. G. (2009). Integrating Melia dubia in agroforestry farms as an alternate pulpwood species.@undefined@undefined@Yes$Ram, B., Rathore, T. S., & Bopanna, B. D. (2014). An efficient protocol for micropropagation and genetic stability analysis of Melia dubia Cav.-an important multipurpose tree. Int. J. Curr. Microbiol. App. Sci, 3(7), 533-544.@undefined@undefined@Yes$Susheela, T., Balaravi, P., Theophilus, J., Reddy, T. N., & Reddy, P. U. M. (2008). Evaluation of hypoglycaemic and antidiabetic effect of Melia dubia CAV fruits in mice. Current science, 1191-1195.@undefined@undefined@Yes$Pradeep, D. (2015). Studies on planting geometry of Melia dubia and its effect on growth and yield of finger millet in agroforestry system under rainfed ecosystem. Doctoral dissertation, University of Agricultural Sciences GKVK, Bengaluru.@undefined@undefined@Yes$Goswami, M., Bhagta, S., & Sharma, D. (2020). Melia dubia and its Importance: A Review. International Journal of Economic Plants, 7(Feb, 1), 029-033.@undefined@undefined@Yes$Saravanan, V., Parthiban, K. T., Kumar, P., & Marimuthu, P. (2013). Wood characterization studies on Melia dubia cav. for pulp and paper industry at different age gradation. Research Journal of Recent Sciences.@undefined@undefined@Yes$Nuthan, D., Reddy, K. M. C., Kumar, S. P., Vajranabhaiah, S. N., & Yogeesha, T. D. (2009). Cultivation of Melia dubia on farm lands in Kanakapura Taluk, Ramanagara district of Karnataka: A success story.@undefined@undefined@Yes$Malarvannan, S., Giridharan, R., Sekar, S., Prabavathy, V. R., & Nair, S. (2009). Ovicidal activity of crude extracts of few traditional plants against Helicoverpa armigera (Hubner) (Noctuidae: Lepidoptera). Journal of Biopesticides, 2(1), 64-71.@undefined@undefined@Yes$Yasodha, D., Manimegalai, M., Kumari, S. B., & Vijayakumar, K. (2011). Larvicidal effect of Melia dubia seed extract against the malarial fever mosquito, Culex quinquefasciatus.@undefined@undefined@Yes$Jilariya, D. J., Thakur, N. S., Singh, N., & Gunaga, R. P. (2019). Economics of cultivation of Melia dubia Cav.-Aloe vera L. silvi-medicinal model. Indian Journal of Agroforestry, 21(2), 35-40.@undefined@undefined@Yes$Kumar D., Thakur N. S. and Gunaga R. P. (2017). Effects of leaf aqueous extract and leaf litter of Melia composita Wild. On black gram (Vigna mungo (L.) Hepper). Allelopathy Journal, 41(1), 127-140.@undefined@undefined@Yes$Tsirogiannis, I., N. Katsoulas, and C. Kittas. (2010). Effect of irrigation scheduling on gerbera flower yield and quality. Hort. Sci., 45(2), 265-270. Blog (2024). Irrigation with wastewater. https://cropaia.com/blog/wastewater-irrigation/@undefined@undefined@Yes
<#LINE#>Tea Consumer Purchasing Decision: Impact of Price in Green Marketing<#LINE#>Athhar Izzan @Kautsar,Yosini @Deliana,Dini @Rochdiani,Tuti @Karyani <#LINE#>21-26<#LINE#>4.ISCA-RJAFS-2024-009.pdf<#LINE#>Agribusiness Program, Faculty of Agriculture, Universitas Padjadjaran, Jatinangor Campus, Jl. Raya Bandung-Sumedang KM 21, Sumedang, Indonesia@Department of Agricultural Socioeconomics, Universitas Padjadjaran, Jatinangor Campus, Jl. Raya Bandung-Sumedang KM 21, Sumedang, Indonesia@Department of Agricultural Socioeconomics, Universitas Padjadjaran, Jatinangor Campus, Jl. Raya Bandung-Sumedang KM 21, Sumedang, Indonesia@Department of Agricultural Socioeconomics, Universitas Padjadjaran, Jatinangor Campus, Jl. Raya Bandung-Sumedang KM 21, Sumedang, Indonesia<#LINE#>8/9/2024<#LINE#>1/11/2024<#LINE#>The focus of this study is on evaluating the effect of price and green marketing practices on the purchasing decisions of Walini tea bags in Bandung City. The agricultural sector, especially the plantation subsector, significantly contributes to Indonesia's GDP, with tea being a major commodity. PT Perkebunan Nusantara I Regional 2, managing certified tea plantations, faces increased production costs due to green marketing certifications. A survey of 102 consumers was conducted using systematic random sampling, with data analyzed via the Method of Successive Intervals (MSI) and multiple regression. The results indicate that price significantly influences purchasing decisions, and green marketing-related price increases are also a factor. The study highlights the importance of balancing cost and sustainable practices in consumer behavior.<#LINE#>Statistik, B. P. (2018).@Produk Domestik Bruto Indonesia Triwulanan.@Jakarta: BPS.@Yes$Nasution, N. A., Tarigan, E. D. S., Khairunnisak, K., & Sabrina, H. (2023).@The influence of bag quality perception, brand image, price perception and promotion on purchase decisions.@Jurnal Ekonomi, 12(3), 1668-1672.@Yes$Kotler, P. (2005).@Principles of Marketing (Millenium ed.).@Pearson Custom Publishing.@Yes$Kirby, R. (2014).@Designing Clinical Research.@Annals of Epidemiology, 24, 410. https://doi.org/10.1016/ J.ANNEPIDEM.2014.01.010.@Yes$Hulland, J., Baumgartner, H., & Smith, K. M. (2018).@Marketing survey research best practices: evidence and recommendations from a review of JAMS articles.@Journal of the Academy of Marketing Science, 46, 92-108.@Yes$Hair, J. F., Black, W. C., Babin, B. J., & Anderson, R. E. (2013).@Multivariate data analysis: Pearson new international edition PDF eBook.@Pearson Higher Ed.@No$Ningsih, S., & Dukalang, H. H. (2019).@Penerapan metode suksesif interval pada analsis regresi linier berganda.@Jambura Journal of Mathematics, 1(1), 43-53.@Yes$Ghadani, A., Muhar, AM, & Sari, AI (2022).@The influence of brand ambassadors and brand image on purchasing decisions on Shopee with brand awareness mediation.@Insight Management Journal, 2(3), 110-118.@Yes$Farnesia, L. (2017).@Analisis Pengaruh Promosi dan Karakteristik Konsumen Terhadap Keputusan Pembelian Teh Celup Walini di Kota Bandung.@(Doctoral dissertation, Program Studi S1 Agribisnis Fakultas Peternakan dan Pertanian).@Yes$Malhotra, N. K., Nunan, D., & Birks, D. F. (2017).@Marketing research: An applied approach (Izv. 5).@Harlow: Pearson Education Limited.@Yes$de Barros Ahrens, R., da Silva Lirani, L., & de Francisco, A. C. (2020).@Construct validity and reliability of the work environment assessment instrument WE-10.@International journal of environmental research and public health, 17(20), 7364.@Yes$Anam, M. S., Nadila, D. L., Anindita, T. A., & Rosia, R. (2021).@Pengaruh kualitas produk, harga dan brand image terhadap keputusan pembelian produk hand and body lotion merek Citra.@Jesya (Jurnal Ekonomi Dan Ekonomi Syariah), 4(1), 120-136.@Yes
<#LINE#>Impact of goat manure and fish meal on yields of green gram and radish in intercropping system<#LINE#>A.R.F. @Suaad,T.H. @Seran <#LINE#>27-34<#LINE#>5.ISCA-RJAFS-2024-011.pdf<#LINE#>Department of Crop Science, Faculty of Agriculture, Eastern University, Chenkalady, Sri Lanka@Department of Crop Science, Faculty of Agriculture, Eastern University, Chenkalady, Sri Lanka<#LINE#>9/11/2024<#LINE#>18/12/2024<#LINE#>Sustainable crop production is foreseeable requirement with increasing world population. Intercropping is a good conception to effectively make use of the space and obtains more than one crop yields. Application of organic manures as a substitute of chemical fertilizers in intercropping system is an environmentally friendly to increase crop productivity. According to the above perceptions, experiment study was carried out to determine the effect of goat manure and fish meal on intercropping of green gram and radish. It was designed in a randomized complete block design with five treatments and four replicates. They were chemical fertilizers (T1), 10 t/ha goat manure alone (T2), 10 t/ha goat manure + 0.1 t/ha fish meal (T3), 15 t/ha goat manure (T4) and 15 t/ha goat manure + 0.1 t/ha fish meal (T5). The fresh and dry weights of leaves, stem, root, seeds and pods of green gram were weighed at 7th weeks. And also plant height, leaf area and pod length were taken. Fresh weights of leaves, tuber and whole plant parameters of radish were recorded. Results revealed that there were substantial differences in yields of green gram and radish among the treatments. Highest seed yield for green gram was recorded as 2654.73 kg/ha that was obtained in T5. Similarly, T5 produced highest yield for radish and that was 39,428.33 kg/ha. Therefore, the study clearly shows that there is a positive effect of goat manure and fishmeal application in green gram crop intercropped with Radish.<#LINE#>Eskandari, H., Ghanbari, A., & Javanmard, A. (2009). Intercropping of cereals and legumes for forage production. Notulae Scientia Biologicae, 1(1), 07-13.@undefined@undefined@Yes$Porto, V. C., Bezerra Neto, F., de Lima, J. S., Barros Júnior, A. P., & Moreira, J. N. (2011). Combination of lettuce and rocket cultivars in two cultures intercropped with carrots. Horticultura Brasileira, 29, 404-411.@undefined@undefined@Yes$Brintha I. and Seran T. H. (2008). Comparative study on yield components of vegetable amaranthus (Amaranthus tricolor L.) planted as sole and intercrop. Proceedings of the 7th Annual Research Session, Eastern University, Sri Lanka, pp 22-30.@undefined@undefined@Yes$Burton, J. W., Brim, C. A., & Rawlings, J. O. (1983). Performance of Non‐Nodulating and Nodulating Soybean Isolines in Mixed Culture with Nodulating Cultivars 1. Crop Science, 23(3), 469-473.@undefined@undefined@Yes$Dantata, I. J. (2014). Effect of legume-based intercropping on crop yield: A Review. Asian Journal of Agriculture and Food Sciences, 2(6).@undefined@undefined@Yes$Dhananjaya, J. (2007). Organic studies in radish (Raphanus sativus L.) varieties. Department of Horticulture Collage of Agriculture, Dharwad University of Agriculture Science, Dharwad, 580(5), 12-13.@undefined@undefined@Yes$Liu, C. W., Sung, Y., Chen, B. C., & Lai, H. Y. (2014). Studied the effects of nitrogen fertilizers onthe growth and nitrate content of Lettuce. Int. J. Envi. Res. Pub. Health, 11(4), 4427-4440.@undefined@undefined@Yes$Seran, T. H. (2018). Effects of inorganic and organic nutrients combindly used on yield and quality of groundnut (Arachis hypogaea L.). Bangladesh J Sci Ind Res, 53(4), 289-296.@undefined@undefined@Yes$Iwanthika, G. M. S. & Seran, T. H. (2023). Yield Response of Cowpea (Vigna unguiculata L.) to Poultry Waste Application with Different Rates of Potassium and Phosphorus Inorganic Fertilizers. International Journal of Environment, 12(2), 71-82.@undefined@undefined@Yes$Wasala, W. M. A. N. B., Seran T. H.  and Lakmali, K. N. D. (2023). Effect of Yaramila complex fertilizer on growth and yield of Cucumber (Cucumis sativus L.). Sri Lankan Journal of Technology, 4(1), 6-10.@undefined@undefined@Yes$Mohanty, S., Paikaray, N. K., & Rajan, A. R. (2006). Availability and uptake of phosphorus from organic manures in groundnut (Arachis hypogea L.)–corn (Zea mays L.) sequence using radio tracer technique. Geoderma, 133(3-4), 225-230.@undefined@undefined@Yes$Risvani, M. S. M., Seran, T. H., & Suthamathy, N. (2010). Proximate analysis of seeds of vegetable cowpea (Vigna uniguiculata L.) fertilized with EM treated animal manure Bokashi.@undefined@undefined@Yes$Awodun, M. A., Omonijo, L. I., & Ojeniyi, S. O. (2007). Effect of goat dung and NPK fertilizer on soil and leaf nutrient content, growth and yield of pepper.@undefined@undefined@Yes$Barlow, P., & McCurran, A. (2015). The nutrient value and effect of fish meal as a fertilizer for Hayward kiwifruit grown under an organic regime.@undefined@undefined@Yes$Seran, T. H., Kamshananthi, T., & Lavanya, L. (2014). Crop performance of groundnut (arachis hypogaea l.) plants developed from different seed lots with an emphasis on organic fertilizer regimes.@undefined@undefined@Yes$Uwah, D. F. and Eyo, V. E. (2014). Effects of Number and Rate of Goat Manure Application on Soil Properties, Growth and Yield of Sweet maize (Zea mays L. saccharata Strut). Sustainable Agriculture Research, 3(4), 75-83.@undefined@undefined@Yes$Baiyeri, P. K., Otitoju, G. T., Abu, N. E. and Umeh, S. (2016). Poultry manure influenced growth, yield and nutritional quality of containerized aromatic pepper (Capsicum annuum L., var Nsukka Yellow). 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