Araştırma Makalesi
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Investigation of the effect of superabsorbent polymer application on soil moisture and plant growth

Yıl 2024, , 24 - 30, 30.04.2024
https://doi.org/10.51753/flsrt.1348591

Öz

As climate change continues to affect the environment, drought management has become more critical in agri-food production. Farmers are now looking for alternative drought management methods that are easy to apply. In this sense, superabsorbent polymers (SAPs) were proposed as an alternative soil conditioning and drought management tool within this study. To test the efficiency of a developed SAP in terms of soil conditioning and plant growth promotion with different soil types and extreme drought conditions, long-term soil and greenhouse experiments were carried out in at least 4 replicates. The plant growth was monitored by 4 different growth indicators using wheat as a model plant. Plant growth indicators demonstrated that shoot dry matter, spike length, and grain yield were enhanced up to 24%, and 11.6% using different amounts of SAP at varying drought conditions. The study set forth and exemplary of superabsorbent polymer use in agriculture and useful in dose adjustment and understanding the drought-dose relationship in these types of polymers.

Destekleyen Kurum

Tubitak

Proje Numarası

2190116

Teşekkür

The authors would like to thank the Ministry of Agriculture and Forestry, General Directorate of Plant Protection Central Research Institute, Turkey (ZMMAE) for their contribution to this study providing soil samples. This work is supported by The Scientific and Technological Research Council of Turkey (TUBITAK)

Kaynakça

  • Acar, O., Izydorczyk, M. S., McMillan, T., Yazici, M. A., Imamoglu, A., Cakmak, I., & Koksel, H. (2023). A research on milling fractions of biofortified and nonbiofortified hull‐less oats in terms of minerals, arabinoxylans, and other chemical properties. Cereal Chemistry, 100(5), 1192-1202.
  • Ahmed, A. M., Mekonnen, M. L., & Mekonnen, K. N. (2023). Review on nanocomposite materials from cellulose, chitosan, alginate, and lignin for removal and recovery of nutrients from wastewater. Carbohydrate Polymer Technologies and Applications, 100386.
  • Ariturk, G., Bilge, K., Seven, S. A., & Menceloglu, Y. Z. (2024). Morphological adaptation of expanded vermiculite in polylactic acid and polypropylene matrices for superior thermoplastic composites. Polymer Composites, 45(6), 5043-5050.
  • Bachra, Y., Grouli, A., Damiri, F., Bennamara, A., & Berrada, M. (2020). A new approach for assessing the absorption of disposable baby diapers and superabsorbent polymers: A comparative study. Results in Materials, 8, 100156.
  • Bett, B., Said, M. Y., Sang, R., Bukachi, S., Wanyoike, S., Kifugo, S. C., & Grace, D. (2017). Effects of flood irrigation on the risk of selected zoonotic pathogens in an arid and semi-arid area in the Eastern Kenya. PloS One, 12(5), e0172626.
  • Bhagat, M. S., Ghare, A. D., & Ralegaonkar, R. V. (2016). Application of super absorbent polymer in flood management and agricultural water management. Journal of Resarch in Engineering and Applied Sciences, 1(1), 30-36.
  • Blancon, J., Buet, C., Dubreuil, P., Tixier, M. H., Baret, F., & Praud, S. (2024). Maize green leaf area index dynamics: genetic basis of a new secondary trait for grain yield in optimal and drought conditions. Theoretical and Applied Genetics, 137(3), 68.
  • Cakmak, I., Kalayci, M., Kaya, Y., Torun, A. A., Aydin, N., Wang, Y., & Horst, W. J. (2010). Biofortification and localization of zinc in wheat grain. Journal of Agricultural and Food Chemistry, 58(16), 9092-9102.
  • Cox, C., Jin, L., Ganjegunte, G., Borrok, D., Lougheed, V., & Ma, L. (2018). Soil quality changes due to flood irrigation in agricultural fields along the Rio Grande in Western Texas. Applied Geochemistry, 90, 87-100.
  • Dalezios, N. R., Dercas, N., Spyropoulos, N. V., & Psomiadis, E. (2017). Water availability and requirements for precision agriculture in vulnerable agroecosystems. European Water, 59, 387-394.
  • Dimkpa, C. O., Andrews, J., Sanabria, J., Bindraban, P. S., Singh, U., Elmer, W. H., & White, J. C. (2020). Interactive effects of drought, organic fertilizer, and zinc oxide nanoscale and bulk particles on wheat performance and grain nutrient accumulation. Science of the Total Environment, 722, 137808.
  • Elshafie, H. S., & Camele, I. (2021). Applications of absorbent polymers for sustainable plant protection and crop yield. Sustainability, 13(6), 3253.
  • Feng, J., Hussain, H. A., Hussain, S., Shi, C., Cholidah, L., Men, S., & Wang, L. (2020). Optimum water and fertilizer management for better growth and resource use efficiency of rapeseed in rainy and drought seasons. Sustainability, 12(2), 703.
  • Fu, E., Zhang, S., Luan, Y., Zhang, Y., Saghir, S., & Xiao, Z. (2022). Novel superabsorbent polymer composites based on α-cellulose and modified zeolite: Synthesis, characterization, water absorbency and water retention capacity. Cellulose, 29(3), 1727-1737.
  • Ganji, F., Vasheghani, F. S., & Vasheghani, F. E. (2010). Theoretical description of hydrogel swelling: A review, Iraninan Polymer Journal, 19 (5), 2010, 375-398.
  • Jaber, F. J. A. A. A. (2012). New routes for synthesis of environmentally friendly superabsorbent polymers, Doctoral Dissertation, (pp. 1-110). An-Najah National University, Nablus, Palestine.
  • Khampuang, K., Chaiwong, N., Yazici, A., Demirer, B., Cakmak, I., & Prom-U-Thai, C. (2023). Effect of sulfur fertilization on productivity and grain zinc yield of rice grown under low and adequate soil zinc applications. Rice Science, 30(6), 632-640.
  • Mabuza, M., & Ndoro, J. T. (2023). Borich’s needs model analysis of smallholder farmers’ competence in irrigation water management: case study of Nkomazi local municipality, Mpumalanga province in South Africa. Sustainability, 15(6), 4935.
  • Magen, H. (2008). Balanced crop nutrition: fertilizing for crop and food quality. Turkish Journal of Agriculture and Forestry, 32(3), 183-193.
  • Maji, B., & Maiti, S. (2021). Chemical modification of xanthan gum through graft copolymerization: Tailored properties and potential applications in drug delivery and wastewater treatment. Carbohydrate Polymers, 251, 117095.
  • Mateo-Sagasta, J., Zadeh, S. M., Turral, H., & Burke, J. (2017). Water pollution from agriculture: a global review. Executive summary (pp. 1-35). FAO Colombo, Sri Lanka: International Water Management Institute (IWMI).
  • Menceloglu, Y., Menceloglu, Y. Z., & Seven, S. A. (2022). Triblock superabsorbent polymer nanocomposites with enhanced water retention capacities and rheological characteristics. ACS Omega, 7(24), 20486-20494.
  • Mignon, A., De Belie, N., Dubruel, P., & Van Vlierberghe, S. (2019). Superabsorbent polymers: A review on the characteristics and applications of synthetic, polysaccharide-based, semi-synthetic and ‘smart’derivatives. European Polymer Journal, 117, 165-178.
  • Monteleone, S., De Moraes, E. A., & Maia, R. F. (2019). Analysis of the variables that affect the intention to adopt Precision Agriculture for smart water management in Agriculture 4.0 context. 2019 Global IoT Summit (GIoTS), 1-6.
  • Moradi, S., Babapoor, A., Ghanbarlou, S., Kalashgarani, M. Y., Salahshoori, I., & Seyfaee, A. (2024). Toward a new generation of fertilizers with the approach of controlled-release fertilizers: A review. Journal of Coatings Technology and Research, 21(1), 31-54.
  • Morison, J. I. L., Baker, N. R., Mullineaux, P. M., & Davies, W. J. (2008). Improving water use in crop production. Philosophical Transactions of the Royal Society B: Biological Sciences, 363(1491), 639-658.
  • Motamedi, E., Motesharezedeh, B., Shirinfekr, A., & Samar, S. M. (2020). Synthesis and swelling behavior of environmentally friendly starch-based superabsorbent hydrogels reinforced with natural char nano/micro particles. Journal of Environmental Chemical Engineering, 8(1), 103583.
  • Olad, A., Doustdar, F., & Gharekhani, H. (2018). Starch-based semi-IPN hydrogel nanocomposite integrated with clinoptilolite: Preparation and swelling kinetic study. Carbohydrate Polymers, 200, 516-528.
  • Pasławski, P., & Migaszewski, Z. M. (2006). The quality of element determinations in plant materials by instrumental methods. Polish Journal of Environmental Studies, 15(2a), 154-164.
  • Perera, M., Jayarathna, L., Yakandawala, D. M. D., & Seneweera, S. (2023). Nanoclay composites as agrochemical carriers. In: Vithanage M., Lazzara G., Rajapaksha A. U. (eds) Clay Composites: Environmental Applications (pp. 543-557). Singapore, Springer Nature Singapore.
  • Qureshi, M. A., Nishat, N., Jadoun, S., & Ansari, M. Z. (2020). Polysaccharide based superabsorbent hydrogels and their methods of synthesis: A review. Carbohydrate Polymer Technologies and Applications, 1, 100014.
  • Rahimi, M., Noruzi, E. B., Sheykhsaran, E., Ebadi, B., Kariminezhad, Z., Molaparast, M., & Kafil, H. S. (2020). Carbohydrate polymer-based silver nanocomposites: Recent progress in the antimicrobial wound dressings. Carbohydrate Polymers, 231, 115696.
  • Rizwan, M., Gilani, S. R., Durani, A. I., & Naseem, S. (2021). Materials diversity of hydrogel: Synthesis, polymerization process and soil conditioning properties in agricultural field. Journal of Advanced Research, 33, 15-40.
  • Rolbiecki, R., & Rolbiecki, S. (2004, September). Effects of micro-irrigation systems on lettuce and radish production. In III Balkan Symposium on Vegetables and Potatoes, 729 (pp. 331-335).
  • Satriani, A., Catalano, M., & Scalcione, E. (2018). The role of superabsorbent hydrogel in bean crop cultivation under deficit irrigation conditions: A case-study in Southern Italy. Agricultural Water Management, 195, 114-119.
  • Sethi, S., Singh, A., Medha, Thakur, S., Kaith, B. S., & Khullar, S. (2023). Natural polymer-based nanocomposite hydrogels as environmental remediation devices. In: Shanker, U., Hussain, C. M., Rani, M. (eds) Handbook of Green and Sustainable Nanotechnology: Fundamentals, Developments and Applications (pp. 407-441). Cham: Springer International Publishing.
  • Seven, S. A., Tastan, O. F., Tas, C. E., Unal, H., Ince, I. A., & Menceloglu, Y. Z. (2019). Insecticide-releasing LLDPE films as greenhouse cover materials. Materials Today Communications, 19, 170-176.
  • Sharma, A., Prakash, A., Bhambota, S., & Kumar, S. (2024). Investigations of precision agriculture technologies with application to developing countries. Environment, Development and Sustainability, 1-37.
  • Shirsath, N. B., Roy, C. B., & Meshram, J. S. (2020). TiO2/starch-based biodegradable copolymer nanocomposite as a plant growth regulator. Green Materials, 9(2), 69-77.
  • Singh, N., Agarwal, S., Jain, A., & Khan, S. (2021). 3-Dimensional cross linked hydrophilic polymeric network “hydrogels”: An agriculture boom. Agricultural Water Management, 253, 106939.
  • Sanchez-Salvador, J. L., Balea, A., Monte, M. C., Negro, C., & Blanco, A. (2021). Chitosan grafted/cross-linked with biodegradable polymers: A review. International Journal of Biological Macromolecules, 178, 325-343.
  • Tanaskovik, V., Cukaliev, O., Romić, D., Ondrasek, G., Savić, R., Markoski, M., & Nechkovski, S. (2019). Water use efficiency and pepper yield under different irrigation and fertilization regime. Contributions, Section of Natural, Mathematical and Biotechnical Sciences, 40(1), 53-62.
  • Taylor, V. F., Longerich, H. P., & Greenough, J. D. (2003). Multielement analysis of Canadian wines by inductively coupled plasma mass spectrometry (ICP-MS) and multivariate statistics. Journal of Agricultural and Food Chemistry, 51(4), 856-860.
  • Woyessa, Y. E. (2024). Sustainable Management of Water Resources in a Semi-arid River Basin Under Climate Change: A Case Study in South Africa. In: Li, Y., Chaudhuri, H., Corrêa Rotunno Filho, O., Guseva, N., Bux, F. (eds) BRICS Countries: Sustainable Water Resource Management and Pollution Control (pp. 183-209) Springer, Singapore.
  • Wypij, M., Trzcińska-Wencel, J., Golińska, P., Avila-Quezada, G. D., Ingle, A. P., & Rai, M. (2023). The strategic applications of natural polymer nanocomposites in food packaging and agriculture: Chances, challenges, and consumers’ perception. Frontiers in Chemistry, 10, 1106230.
  • Yadav, S., Singh, B., Humphreys, E., & Kukal, S. S. (2013). Effective management of scarce water resources in North-West India. In: Gurbir S. B., Navreet K. B. (eds) Agricultural Sustainability (pp. 103-125). Academic Press.
  • Zinge, C., & Kandasubramanian, B. (2020). Nanocellulose based biodegradable polymers. European Polymer Journal, 133, 109758.
Yıl 2024, , 24 - 30, 30.04.2024
https://doi.org/10.51753/flsrt.1348591

Öz

Proje Numarası

2190116

Kaynakça

  • Acar, O., Izydorczyk, M. S., McMillan, T., Yazici, M. A., Imamoglu, A., Cakmak, I., & Koksel, H. (2023). A research on milling fractions of biofortified and nonbiofortified hull‐less oats in terms of minerals, arabinoxylans, and other chemical properties. Cereal Chemistry, 100(5), 1192-1202.
  • Ahmed, A. M., Mekonnen, M. L., & Mekonnen, K. N. (2023). Review on nanocomposite materials from cellulose, chitosan, alginate, and lignin for removal and recovery of nutrients from wastewater. Carbohydrate Polymer Technologies and Applications, 100386.
  • Ariturk, G., Bilge, K., Seven, S. A., & Menceloglu, Y. Z. (2024). Morphological adaptation of expanded vermiculite in polylactic acid and polypropylene matrices for superior thermoplastic composites. Polymer Composites, 45(6), 5043-5050.
  • Bachra, Y., Grouli, A., Damiri, F., Bennamara, A., & Berrada, M. (2020). A new approach for assessing the absorption of disposable baby diapers and superabsorbent polymers: A comparative study. Results in Materials, 8, 100156.
  • Bett, B., Said, M. Y., Sang, R., Bukachi, S., Wanyoike, S., Kifugo, S. C., & Grace, D. (2017). Effects of flood irrigation on the risk of selected zoonotic pathogens in an arid and semi-arid area in the Eastern Kenya. PloS One, 12(5), e0172626.
  • Bhagat, M. S., Ghare, A. D., & Ralegaonkar, R. V. (2016). Application of super absorbent polymer in flood management and agricultural water management. Journal of Resarch in Engineering and Applied Sciences, 1(1), 30-36.
  • Blancon, J., Buet, C., Dubreuil, P., Tixier, M. H., Baret, F., & Praud, S. (2024). Maize green leaf area index dynamics: genetic basis of a new secondary trait for grain yield in optimal and drought conditions. Theoretical and Applied Genetics, 137(3), 68.
  • Cakmak, I., Kalayci, M., Kaya, Y., Torun, A. A., Aydin, N., Wang, Y., & Horst, W. J. (2010). Biofortification and localization of zinc in wheat grain. Journal of Agricultural and Food Chemistry, 58(16), 9092-9102.
  • Cox, C., Jin, L., Ganjegunte, G., Borrok, D., Lougheed, V., & Ma, L. (2018). Soil quality changes due to flood irrigation in agricultural fields along the Rio Grande in Western Texas. Applied Geochemistry, 90, 87-100.
  • Dalezios, N. R., Dercas, N., Spyropoulos, N. V., & Psomiadis, E. (2017). Water availability and requirements for precision agriculture in vulnerable agroecosystems. European Water, 59, 387-394.
  • Dimkpa, C. O., Andrews, J., Sanabria, J., Bindraban, P. S., Singh, U., Elmer, W. H., & White, J. C. (2020). Interactive effects of drought, organic fertilizer, and zinc oxide nanoscale and bulk particles on wheat performance and grain nutrient accumulation. Science of the Total Environment, 722, 137808.
  • Elshafie, H. S., & Camele, I. (2021). Applications of absorbent polymers for sustainable plant protection and crop yield. Sustainability, 13(6), 3253.
  • Feng, J., Hussain, H. A., Hussain, S., Shi, C., Cholidah, L., Men, S., & Wang, L. (2020). Optimum water and fertilizer management for better growth and resource use efficiency of rapeseed in rainy and drought seasons. Sustainability, 12(2), 703.
  • Fu, E., Zhang, S., Luan, Y., Zhang, Y., Saghir, S., & Xiao, Z. (2022). Novel superabsorbent polymer composites based on α-cellulose and modified zeolite: Synthesis, characterization, water absorbency and water retention capacity. Cellulose, 29(3), 1727-1737.
  • Ganji, F., Vasheghani, F. S., & Vasheghani, F. E. (2010). Theoretical description of hydrogel swelling: A review, Iraninan Polymer Journal, 19 (5), 2010, 375-398.
  • Jaber, F. J. A. A. A. (2012). New routes for synthesis of environmentally friendly superabsorbent polymers, Doctoral Dissertation, (pp. 1-110). An-Najah National University, Nablus, Palestine.
  • Khampuang, K., Chaiwong, N., Yazici, A., Demirer, B., Cakmak, I., & Prom-U-Thai, C. (2023). Effect of sulfur fertilization on productivity and grain zinc yield of rice grown under low and adequate soil zinc applications. Rice Science, 30(6), 632-640.
  • Mabuza, M., & Ndoro, J. T. (2023). Borich’s needs model analysis of smallholder farmers’ competence in irrigation water management: case study of Nkomazi local municipality, Mpumalanga province in South Africa. Sustainability, 15(6), 4935.
  • Magen, H. (2008). Balanced crop nutrition: fertilizing for crop and food quality. Turkish Journal of Agriculture and Forestry, 32(3), 183-193.
  • Maji, B., & Maiti, S. (2021). Chemical modification of xanthan gum through graft copolymerization: Tailored properties and potential applications in drug delivery and wastewater treatment. Carbohydrate Polymers, 251, 117095.
  • Mateo-Sagasta, J., Zadeh, S. M., Turral, H., & Burke, J. (2017). Water pollution from agriculture: a global review. Executive summary (pp. 1-35). FAO Colombo, Sri Lanka: International Water Management Institute (IWMI).
  • Menceloglu, Y., Menceloglu, Y. Z., & Seven, S. A. (2022). Triblock superabsorbent polymer nanocomposites with enhanced water retention capacities and rheological characteristics. ACS Omega, 7(24), 20486-20494.
  • Mignon, A., De Belie, N., Dubruel, P., & Van Vlierberghe, S. (2019). Superabsorbent polymers: A review on the characteristics and applications of synthetic, polysaccharide-based, semi-synthetic and ‘smart’derivatives. European Polymer Journal, 117, 165-178.
  • Monteleone, S., De Moraes, E. A., & Maia, R. F. (2019). Analysis of the variables that affect the intention to adopt Precision Agriculture for smart water management in Agriculture 4.0 context. 2019 Global IoT Summit (GIoTS), 1-6.
  • Moradi, S., Babapoor, A., Ghanbarlou, S., Kalashgarani, M. Y., Salahshoori, I., & Seyfaee, A. (2024). Toward a new generation of fertilizers with the approach of controlled-release fertilizers: A review. Journal of Coatings Technology and Research, 21(1), 31-54.
  • Morison, J. I. L., Baker, N. R., Mullineaux, P. M., & Davies, W. J. (2008). Improving water use in crop production. Philosophical Transactions of the Royal Society B: Biological Sciences, 363(1491), 639-658.
  • Motamedi, E., Motesharezedeh, B., Shirinfekr, A., & Samar, S. M. (2020). Synthesis and swelling behavior of environmentally friendly starch-based superabsorbent hydrogels reinforced with natural char nano/micro particles. Journal of Environmental Chemical Engineering, 8(1), 103583.
  • Olad, A., Doustdar, F., & Gharekhani, H. (2018). Starch-based semi-IPN hydrogel nanocomposite integrated with clinoptilolite: Preparation and swelling kinetic study. Carbohydrate Polymers, 200, 516-528.
  • Pasławski, P., & Migaszewski, Z. M. (2006). The quality of element determinations in plant materials by instrumental methods. Polish Journal of Environmental Studies, 15(2a), 154-164.
  • Perera, M., Jayarathna, L., Yakandawala, D. M. D., & Seneweera, S. (2023). Nanoclay composites as agrochemical carriers. In: Vithanage M., Lazzara G., Rajapaksha A. U. (eds) Clay Composites: Environmental Applications (pp. 543-557). Singapore, Springer Nature Singapore.
  • Qureshi, M. A., Nishat, N., Jadoun, S., & Ansari, M. Z. (2020). Polysaccharide based superabsorbent hydrogels and their methods of synthesis: A review. Carbohydrate Polymer Technologies and Applications, 1, 100014.
  • Rahimi, M., Noruzi, E. B., Sheykhsaran, E., Ebadi, B., Kariminezhad, Z., Molaparast, M., & Kafil, H. S. (2020). Carbohydrate polymer-based silver nanocomposites: Recent progress in the antimicrobial wound dressings. Carbohydrate Polymers, 231, 115696.
  • Rizwan, M., Gilani, S. R., Durani, A. I., & Naseem, S. (2021). Materials diversity of hydrogel: Synthesis, polymerization process and soil conditioning properties in agricultural field. Journal of Advanced Research, 33, 15-40.
  • Rolbiecki, R., & Rolbiecki, S. (2004, September). Effects of micro-irrigation systems on lettuce and radish production. In III Balkan Symposium on Vegetables and Potatoes, 729 (pp. 331-335).
  • Satriani, A., Catalano, M., & Scalcione, E. (2018). The role of superabsorbent hydrogel in bean crop cultivation under deficit irrigation conditions: A case-study in Southern Italy. Agricultural Water Management, 195, 114-119.
  • Sethi, S., Singh, A., Medha, Thakur, S., Kaith, B. S., & Khullar, S. (2023). Natural polymer-based nanocomposite hydrogels as environmental remediation devices. In: Shanker, U., Hussain, C. M., Rani, M. (eds) Handbook of Green and Sustainable Nanotechnology: Fundamentals, Developments and Applications (pp. 407-441). Cham: Springer International Publishing.
  • Seven, S. A., Tastan, O. F., Tas, C. E., Unal, H., Ince, I. A., & Menceloglu, Y. Z. (2019). Insecticide-releasing LLDPE films as greenhouse cover materials. Materials Today Communications, 19, 170-176.
  • Sharma, A., Prakash, A., Bhambota, S., & Kumar, S. (2024). Investigations of precision agriculture technologies with application to developing countries. Environment, Development and Sustainability, 1-37.
  • Shirsath, N. B., Roy, C. B., & Meshram, J. S. (2020). TiO2/starch-based biodegradable copolymer nanocomposite as a plant growth regulator. Green Materials, 9(2), 69-77.
  • Singh, N., Agarwal, S., Jain, A., & Khan, S. (2021). 3-Dimensional cross linked hydrophilic polymeric network “hydrogels”: An agriculture boom. Agricultural Water Management, 253, 106939.
  • Sanchez-Salvador, J. L., Balea, A., Monte, M. C., Negro, C., & Blanco, A. (2021). Chitosan grafted/cross-linked with biodegradable polymers: A review. International Journal of Biological Macromolecules, 178, 325-343.
  • Tanaskovik, V., Cukaliev, O., Romić, D., Ondrasek, G., Savić, R., Markoski, M., & Nechkovski, S. (2019). Water use efficiency and pepper yield under different irrigation and fertilization regime. Contributions, Section of Natural, Mathematical and Biotechnical Sciences, 40(1), 53-62.
  • Taylor, V. F., Longerich, H. P., & Greenough, J. D. (2003). Multielement analysis of Canadian wines by inductively coupled plasma mass spectrometry (ICP-MS) and multivariate statistics. Journal of Agricultural and Food Chemistry, 51(4), 856-860.
  • Woyessa, Y. E. (2024). Sustainable Management of Water Resources in a Semi-arid River Basin Under Climate Change: A Case Study in South Africa. In: Li, Y., Chaudhuri, H., Corrêa Rotunno Filho, O., Guseva, N., Bux, F. (eds) BRICS Countries: Sustainable Water Resource Management and Pollution Control (pp. 183-209) Springer, Singapore.
  • Wypij, M., Trzcińska-Wencel, J., Golińska, P., Avila-Quezada, G. D., Ingle, A. P., & Rai, M. (2023). The strategic applications of natural polymer nanocomposites in food packaging and agriculture: Chances, challenges, and consumers’ perception. Frontiers in Chemistry, 10, 1106230.
  • Yadav, S., Singh, B., Humphreys, E., & Kukal, S. S. (2013). Effective management of scarce water resources in North-West India. In: Gurbir S. B., Navreet K. B. (eds) Agricultural Sustainability (pp. 103-125). Academic Press.
  • Zinge, C., & Kandasubramanian, B. (2020). Nanocellulose based biodegradable polymers. European Polymer Journal, 133, 109758.
Toplam 47 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Bitki Bilimi (Diğer), Nanomalzemeler
Bölüm Araştırma Makaleleri
Yazarlar

Senem Seven 0000-0002-7520-007X

Yeşim Menceloğlu 0000-0003-4840-869X

Kemal Ünlü 0000-0002-5361-6728

Kadriye Kahraman 0000-0003-3144-2509

Ogeday Rodop 0000-0001-8267-8234

İpek Bilge 0000-0002-0242-7716

Mustafa Atilla Yazıcı 0000-0002-0137-3656

Yusuf Menceloğlu 0000-0003-0296-827X

Proje Numarası 2190116
Yayımlanma Tarihi 30 Nisan 2024
Gönderilme Tarihi 6 Eylül 2023
Yayımlandığı Sayı Yıl 2024

Kaynak Göster

APA Seven, S., Menceloğlu, Y., Ünlü, K., Kahraman, K., vd. (2024). Investigation of the effect of superabsorbent polymer application on soil moisture and plant growth. Frontiers in Life Sciences and Related Technologies, 5(1), 24-30. https://doi.org/10.51753/flsrt.1348591

Creative Commons License

Frontiers in Life Sciences and Related Technologies is licensed under a Creative Commons Attribution 4.0 International License.