A field study on using soybean waste-derived superabsorbent hydrogel to enhance growth of vegetables
Food security is critical and has become a global concern with many of our basic food crops growing in areas with high drought risk. To improve soil water holding capacity, hydrogels are a promising solution. However, the current ones are mostly derived from petroleum products and are environmental...
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sg-ntu-dr.10356-1641842023-01-09T02:50:36Z A field study on using soybean waste-derived superabsorbent hydrogel to enhance growth of vegetables Zhu, Jingling Suhaimi, Fadhlina Lim, Jing Ying Gao, Zhengyang Swarup, Sanjay Loh, Chiang Shiong Li, Jun Ong, Choon Nam Tan, Wee Kee National University of Singapore Singapore Centre for Environmental Life Sciences and Engineering Social sciences::Geography Superabsorbent Polymers Field-Testing Food security is critical and has become a global concern with many of our basic food crops growing in areas with high drought risk. To improve soil water holding capacity, hydrogels are a promising solution. However, the current ones are mostly derived from petroleum products and are environmental unsustainable. In this study, the main objective is to determine if bio-based hydrogel can help in the growth of leafy vegetables while minimizing water use under field conditions. To achieve this, we developed an okara-derived hydrogel (Ok-PAA; OP) from by-products of bean curd and soybean milk production. We incorporated OP into soil and assessed the growth performance of leafy vegetables. We observed that vegetables grown with 0.2% (w/v) OP in soil with a watering frequency of 7 times per week resulted in >60 % and 35 % yield increase for the common Asian leafy vegetables, choy sum (CS) and pak choi (PC), respectively, as compared to without hydrogel supplementation. Both vegetables produced larger leaf areas (20-40 % increment) in the presence of the hydrogel as compared to those without. In addition, with OP amendment, the irrigation water use efficiency improved >60 % and 30 % for CS and PC, respectively. It is estimated that with the use of the hydrogel, a reduction in watering frequency from 21 times to 7 times per week could be achieved, and based on a per hectare estimation, this would result in 196,000 L of water saving per crop cycle. Statistical analysis and modelling further confirmed vegetables grown with 0.2 % (w/v) OP and with a watering frequency of 7 times per week showed the best growth performance and water use efficiency. Such a waste-to-resource approach offers a plant-based soil supplement for crop growers, contributes to waste valorization, and enhances the growth of plants especially under water-limited conditions. National Research Foundation (NRF) This work was financially supported by the National Research Foundation, Prime Minister's Office, Singapore, under its Competitive Research Programme (NRF-CRP 16-2015-04). 2023-01-09T02:50:36Z 2023-01-09T02:50:36Z 2022 Journal Article Zhu, J., Suhaimi, F., Lim, J. Y., Gao, Z., Swarup, S., Loh, C. S., Li, J., Ong, C. N. & Tan, W. K. (2022). A field study on using soybean waste-derived superabsorbent hydrogel to enhance growth of vegetables. Science of the Total Environment, 851(Part 1), 158141-. https://dx.doi.org/10.1016/j.scitotenv.2022.158141 0048-9697 https://hdl.handle.net/10356/164184 10.1016/j.scitotenv.2022.158141 35995171 2-s2.0-85136569316 Part 1 851 158141 en NRF-CRP 16-2015-04 Science of the Total Environment © 2022 Elsevier B.V. All rights reserved. |
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Social sciences::Geography Superabsorbent Polymers Field-Testing Zhu, Jingling Suhaimi, Fadhlina Lim, Jing Ying Gao, Zhengyang Swarup, Sanjay Loh, Chiang Shiong Li, Jun Ong, Choon Nam Tan, Wee Kee A field study on using soybean waste-derived superabsorbent hydrogel to enhance growth of vegetables |
| description |
Food security is critical and has become a global concern with many of our basic food crops growing in areas with high drought risk. To improve soil water holding capacity, hydrogels are a promising solution. However, the current ones are mostly derived from petroleum products and are environmental unsustainable. In this study, the main objective is to determine if bio-based hydrogel can help in the growth of leafy vegetables while minimizing water use under field conditions. To achieve this, we developed an okara-derived hydrogel (Ok-PAA; OP) from by-products of bean curd and soybean milk production. We incorporated OP into soil and assessed the growth performance of leafy vegetables. We observed that vegetables grown with 0.2% (w/v) OP in soil with a watering frequency of 7 times per week resulted in >60 % and 35 % yield increase for the common Asian leafy vegetables, choy sum (CS) and pak choi (PC), respectively, as compared to without hydrogel supplementation. Both vegetables produced larger leaf areas (20-40 % increment) in the presence of the hydrogel as compared to those without. In addition, with OP amendment, the irrigation water use efficiency improved >60 % and 30 % for CS and PC, respectively. It is estimated that with the use of the hydrogel, a reduction in watering frequency from 21 times to 7 times per week could be achieved, and based on a per hectare estimation, this would result in 196,000 L of water saving per crop cycle. Statistical analysis and modelling further confirmed vegetables grown with 0.2 % (w/v) OP and with a watering frequency of 7 times per week showed the best growth performance and water use efficiency. Such a waste-to-resource approach offers a plant-based soil supplement for crop growers, contributes to waste valorization, and enhances the growth of plants especially under water-limited conditions. |
| author2 |
National University of Singapore |
| author_facet |
National University of Singapore Zhu, Jingling Suhaimi, Fadhlina Lim, Jing Ying Gao, Zhengyang Swarup, Sanjay Loh, Chiang Shiong Li, Jun Ong, Choon Nam Tan, Wee Kee |
| format |
Article |
| author |
Zhu, Jingling Suhaimi, Fadhlina Lim, Jing Ying Gao, Zhengyang Swarup, Sanjay Loh, Chiang Shiong Li, Jun Ong, Choon Nam Tan, Wee Kee |
| author_sort |
Zhu, Jingling |
| title |
A field study on using soybean waste-derived superabsorbent hydrogel to enhance growth of vegetables |
| title_short |
A field study on using soybean waste-derived superabsorbent hydrogel to enhance growth of vegetables |
| title_full |
A field study on using soybean waste-derived superabsorbent hydrogel to enhance growth of vegetables |
| title_fullStr |
A field study on using soybean waste-derived superabsorbent hydrogel to enhance growth of vegetables |
| title_full_unstemmed |
A field study on using soybean waste-derived superabsorbent hydrogel to enhance growth of vegetables |
| title_sort |
field study on using soybean waste-derived superabsorbent hydrogel to enhance growth of vegetables |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/164184 |
| _version_ |
1754611301326258176 |