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Techniki inżynierii ochrony gleb i wód w modyfikacji klimatu ryzosfery ogórka (Cucumis sativus L.) mającej na celu poprawę efektywności zużycia wody i plonu
Języki publikacji
Abstrakty
The research was conducted to study the performance of cucumber under protected conditions with different plastic mulches. This experiment was conducted in a split plot design, having irrigation levels as main plot and mulches as subplots. The study revealed that mulching helped to maintain the soil moisture higher than bare soil and black mulch showed higher soil temperature and soil moisture (23.3%) under 100% irrigation. Plant height and yield was also influenced by mulching. Plant height and yield decreased in relation to reduction of the irrigation level. The highest water use efficiency (WUE) was found under 50% irrigation and black mulch plot (32 kg·m-3). In conclusion, black mulch with 100% irrigation performed well among the treatments because of higher moisture and favourable soil temperature. In consideration of WUE, black mulch with 50% irrigation performed well.
Badanie zostało przeprowadzone w celu sprawdzenia wydajności uprawy ogórka w warunkach chronionych różnego rodzaju włókniną ogrodniczą. To doświadczenie zostało przeprowadzone w układzie “split plot”, gdzie poziomy nawodnienia stanowiły “main plot” a włókniny “subplots”. Badanie wykazało, że użycie włókniny pomogło zachować wilgotność gleby wyższą niż w przypadku samej gleby a zastosowanie czarnej włókniny wykazało wyższą temperaturę i wilgotność gleby (23,3%) przy 100% nawadnianiu. Mulczowanie za pomocą włókniny wpłynęło także na wysokość i plon rośliny. Wysokość i plon rośliny uległy zmniejszeniu wraz ze zmniejszeniem poziomu nawodnienia. Najwyższa efektywność zużycia wody (WUE) wystąpiła w przypadku 50% nawadniania i użycia czarnej włókniny (32 kg·m-3). Podsumowując, czarna włóknina przy 100 % nawadnianiu radziła sobie dobrze w odniesieniu do czynności z powodu wyższej wilgotności i dogodnej temperatury gleby. Biorąc pod uwagę efektywność zużycia wody, czarna włóknina przy 50% nawodnienia radziła sobie dobrze.
Słowa kluczowe
Czasopismo
Rocznik
Tom
Strony
201--213
Opis fizyczny
Bibliogr. 33 poz., tab., wykr.
Twórcy
- Scholar, Department of Agricultural Meteorology, Agro Climate Research Cen-tre, Tamil Nadu Agriculture, University, PN Pudur, Coimbatore, 641003. Tamil Na-du, India
autor
- Faculty of Agricultural Meteorology, Department of Agro Climate Research Centre, Tamil Nadu Agriculture, University, PN Pudur, Coimbatore, 641003. Tamil Nadu, India
autor
- Faculty of Agricultural Engineering, Department of Soil and Water Conservation Engineering, Tamil Nadu Agriculture, University, PN Pudur, Coimbatore, 641003. Tamil Nadu, India
- Faculty of Crop Physiology, Department of Crop Management, Tamil Nadu Agricul-ture, University, PN Pudur, Coimbatore, 641003. Tamil Nadu, India
- Faculty of Agricultural Meteorology, Department of Agro Climate Research Centre Tamil Nadu Agriculture, University, PN Pudur, Coimbatore, 641003. Tamil Nadu, India
autor
- Faculty of Horticulture, Department of horticulture, Tamil Nadu Agriculture, Univer-sity, PN Pudur, Coimbatore, 641003. Tamil Nadu, India
autor
- Faculty of Agricultural Engineering, Department of Soil and Water Conservation Engineering, Tamil Nadu Agriculture, University, PN Pudur, Coimbatore, 641003. Tamil Nadu, India
Bibliografia
- Agrawal, N., Panigrahi, H. K., Sharma, D., & Agrawal, R. (2010). Effect of different colour mulches on the growth and yield of tomato under Chhattisgarh region. Indian Journal of Horticulture, 67(4), 295-300.
- Allen, R.G., Pereira, L.S., Raes, D. & Smith, M. (1998). Crop evapotranspiration-Guidelines for computing crop water requirements-FAO Irrigation and drainage paper 56. Fao, Rome, 300(9), D05109.
- Ashrafuzzaman, M., Halim, M.A., Ismail, M.R., Shahidullah, S.M. & Hossain, M.A. (2011). Effect of plastic mulch on growth and yield of chilli (Capsicum annuum L.). Brazilian Archives of Biology and Technology, 54, 321-330.
- Berihun, B., (2011). Effect of mulching and amount of water on the yield of tomato under drip irrigation. Journal of Horticulture and Forestry, 3, 200-206.
- Bhatt, L., Rana, R., Uniyal, S.P. & Singh, V.P. (2011). Effect of mulch materials on vegetative characters, yield and economics of summer squash (Cucurbita pepo) under rainfed mid-hill condition of Uttarakhand. Vegetation Science, 38, 165-168.
- CWC. (1984). Irrigation water requirement, Guide for estimating irrigation water requirements. Published by Ministry of irrigation, water management division. New Delhi India pp: 28-31.
- Dodd, I.C., He, J., Turnbull, C.G.N., Lee, S.K. & Critchley, C. (2000). The influence of supra-optimal root-zone temperatures on growth and stomatal conductance in Capsicum annuum L. Journal of experimental botany, 51(343), 239-248.
- El-Aidy, F., El-Zawely, A., Hassan, N. & El-Sawy, M. (2007). Effect of plastic tunnel size on production of cucumber in delta of Egypt. Applied Ecology and Environmental Research, 5(2), 11-24.
- FAO. https://www.fao.org/land-water/databases-and-software/crop-information/tomato/en/ [Available on 12.09.2022].
- Finkel, H.J. (2019). Handbook of Irrigation Technology: Volume 1. CRC Press, Boca Raton.
- Fischer, G., Tubiello, F.N., van Velthaizen, H., Wiberg, D.A. (2007). Climate change impacts on irrigation water requirements: Effects of mitigation, 1990-2080. Technological Forcasting & Social Change, 74,1083-1107.
- Franquera, E.N. (2015). Influence of different colored plastic mulch on the growth of lettuce (Lactuca sativa) Journal of Ornamental and Horticultural Plants, 1(2), 97-104.
- Gordon, G.G., Foshee, W.G., Reed, S.T., Brown, J.E. & Vinson, E.L. (2010). The effects of colored plastic mulches and row covers on the growth and yield of okra. HortTechnology, 20(1), 224-233.
- Haapala, T., Palonen, P., Korpela, A. & Ahokas, J. (2014). Feasibility of paper mulches in crop production -a review. Agricultural and food science, 23(1), 60-79.
- Hatami, S., A. Nourjou, M.H, & Pourakbar, L. (2012). Comparison effects of different methods of black plastic mulching and planting patterns on weed control, water-use efficiency and yield in tomato crops. International Journal of Agricultural Sciences, 2, 928-934.
- Jabran, K. (2019) Role of Mulching in Pest Management and Agricultural Sustainability. Cham: Springer.
- Job, M. (2018). Study on changes in microclimatic parameters under poly-house with different color plastic mulching during tomato cultivation. Journal of Pharmacognosy and Phytochemistry, SP1, 689-694.
- Job, M., Bhakar, S.R., Singh, P.K., Tiwari, G.S., Sharma, R.K., Lakhawat, S.S. & Sharma, D. (2016). Evaluation of plastic mulch for changes in mechanical properties during onion cultivation. International Journal of Science, Environment and Technology, 5, 575-584.
- Kader, M.A., Senge, M., Mojid, M.A. & Nakamura, K., (2017). Mulching type-induced soil moisture and temperature regimes and water use efficiency of soybean under rain-fed condition in central Japan. International Soil and Water Conservation Research, 5(4), 302-308.
- Kaur, J. & Singh, G. (2020). Adoption of microclimate modification techniques. Just agriculture multidisciplinary e newsletter, 1(3), 1-7.
- Kumar, A. V., mouli, G. C., Ramulu, V., & Kumar, K. A. (2012). Effect of drip irrigation levels and mulches on growth, yield and water use efficiency of tomato. part i: plant science, 104, 121-127.
- Lamont, W.J. (1999). Vegetable production using plasticulture. Tapei City: Food and Fertilizer Technology Center.
- Li, Q., Li, H., Zhang, L., Zhang, S. & Chen, Y. (2018). Mulching improves yield and water-use efficiency of potato cropping in China: A meta-analysis. Field crops research, 221, 50-60.
- Mahadeen, A.Y. (2014). Effect of polyethylene black plastic mulch on growth and yield of two summer vegetable crops under rain-fed conditions under semi-arid region conditions. American Journal of Agricultural and Biological Sciences, 9(2), 202-207.
- Manivannan, S., Thilagam, V.K. & Khola, O.P. (2017). Soil and water conservation in India: Strategies and research challenges. Journal of Soil and Water Conservation, 16(4), 312-319.
- Mao, X., Liu, M., Wang, X., Liu, C., Hou, Z., & Shi, J. (2003). Effects of deficit irrigation on yield and water use of greenhouse grown cucumber in the North China Plain. Agricultural water management, 61(3), 219-228.
- Mukherjee, A., Kundu, M., & Sarkar, S. 2010. Role of irrigation and mulch on yield, evapotranspiration rate and water use pattern of tomato (Lycopersicon esculentum L.). Agricultural Water Management, 98(1), 182-189.
- Nair, A., Carpenter, B.H. & Weieneth, L.K. (2013). Effect of plastic mulch and trellises on cucumber production in high tunnels. Iowa State University Research and Demonstration Farms Progress Reports, 2012(1).
- Onwuka, B., & Mang, B. (2018). Effects of soil temperature on some soil properties and plant growth. Advances in Plants & Agriculture Research, 8(1), 34-37.
- Rashidi, M., & Khabbaz, B. G. (2011, January). Effect of plastic mulch and tillage method on yield and yield components of tomato ('Lycopersicon esculentum'). In 2011 Society for Engineering in Agriculture Conference: Diverse Challenges, Innovative Solutions (pp. 542-551). [Barton, ACT]: Engineers Australia.
- Sarkar, M.D., Solaiman, A.H.M., Jahan, M.S., Rojoni, R.N., Kabir, K. & Hasanuzzaman, M., (2019). Soil parameters, onion growth, physiology, biochemical and mineral nutrient composition in response to colored polythene film mulches. Annals of Agricultural Sciences, 64(1), 63-70.
- Singh, A.K. & Kamal, S. (2012). Effect of black plastic mulch on soil temperature and tomato yield in mid hills of Garhwal Himalayas. Journal of Horticulture and Forestry, 4, 78-80.
- Wang, S., & Zhang, F. (2002, August). Effect of different water treatments on photosynthesis characteristics and leaf ultrastructure of cucumber growing in solar greenhouse. In XXVI International Horticultural Congress: Protected Cultivation 2002: In Search of Structures, Systems and Plant Materials 633 (pp. 397-401).
Uwagi
Opracowanie rekordu ze środków MEiN, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2022-2023).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-8e953028-7054-44a8-be74-150d743f80fe