Decision-tree-based ion-specific dosing algorithm for enhancing closed hydroponic efficiency and reducing carbon emissions
The maintenance of ion balance in closed hydroponic solutions is essential to improve the crop quality and recycling efficiency of nutrient solutions. However, the absence of robust ion sensors for key ions such as P and Mg and the coupling of ions in fertilizer salts render it difficult to effectiv...
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| Published in | Frontiers in plant science Vol. 14; p. 1301490 |
|---|---|
| Main Authors | , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Switzerland
Frontiers Media S.A
18.12.2023
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| Subjects | |
| Online Access | Get full text |
| ISSN | 1664-462X 1664-462X |
| DOI | 10.3389/fpls.2023.1301490 |
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| Abstract | The maintenance of ion balance in closed hydroponic solutions is essential to improve the crop quality and recycling efficiency of nutrient solutions. However, the absence of robust ion sensors for key ions such as P and Mg and the coupling of ions in fertilizer salts render it difficult to effectively manage ion-specific nutrient solutions. Although ion-specific dosing algorithms have been established, their effectiveness has been inadequately explored. In this study, a decision-tree-based dosing algorithm was developed to calculate the optimal volumes of individual nutrient stock solutions to be supplied for five major nutrient ions, i.e., NO
3
, K, Ca, P, and Mg, based on the concentrations of NO
3
, K, and Ca and remaining volume of the recycled nutrient solution. In the performance assessment based on five nutrient solution samples encompassing the typical concentration ranges for leafy vegetable cultivation, the ion-selective electrode array demonstrated feasible accuracies, with root mean square errors of 29.5, 10.1, and 6.1 mg·L
-1
for NO
3
, K, and Ca, respectively. In a five-step replenishment test involving varying target concentrations and nutrient solution volumes, the system formulated nutrient solutions according to the specified targets, exhibiting average relative errors of 10.6 ± 8.0%, 7.9 ± 2.1%, 8.0 ± 11.0%, and 4.2 ± 3.7% for the Ca, K, and NO
3
concentrations and volume of the nutrient solution, respectively. Furthermore, the decision tree method helped reduce the total fertilizer injections and carbon emissions by 12.8% and 20.6% in the stepwise test, respectively. The findings demonstrate that the decision-tree-based dosing algorithm not only enables more efficient reuse of nutrient solution compared to the existing simplex method but also confirms the potential for reducing carbon emissions, indicating the possibility of sustainable agricultural development. |
|---|---|
| AbstractList | The maintenance of ion balance in closed hydroponic solutions is essential to improve the crop quality and recycling efficiency of nutrient solutions. However, the absence of robust ion sensors for key ions such as P and Mg and the coupling of ions in fertilizer salts render it difficult to effectively manage ion-specific nutrient solutions. Although ion-specific dosing algorithms have been established, their effectiveness has been inadequately explored. In this study, a decision-tree-based dosing algorithm was developed to calculate the optimal volumes of individual nutrient stock solutions to be supplied for five major nutrient ions, i.e., NO
, K, Ca, P, and Mg, based on the concentrations of NO
, K, and Ca and remaining volume of the recycled nutrient solution. In the performance assessment based on five nutrient solution samples encompassing the typical concentration ranges for leafy vegetable cultivation, the ion-selective electrode array demonstrated feasible accuracies, with root mean square errors of 29.5, 10.1, and 6.1 mg·L
for NO
, K, and Ca, respectively. In a five-step replenishment test involving varying target concentrations and nutrient solution volumes, the system formulated nutrient solutions according to the specified targets, exhibiting average relative errors of 10.6 ± 8.0%, 7.9 ± 2.1%, 8.0 ± 11.0%, and 4.2 ± 3.7% for the Ca, K, and NO
concentrations and volume of the nutrient solution, respectively. Furthermore, the decision tree method helped reduce the total fertilizer injections and carbon emissions by 12.8% and 20.6% in the stepwise test, respectively. The findings demonstrate that the decision-tree-based dosing algorithm not only enables more efficient reuse of nutrient solution compared to the existing simplex method but also confirms the potential for reducing carbon emissions, indicating the possibility of sustainable agricultural development. The maintenance of ion balance in closed hydroponic solutions is essential to improve the crop quality and recycling efficiency of nutrient solutions. However, the absence of robust ion sensors for key ions such as P and Mg and the coupling of ions in fertilizer salts render it difficult to effectively manage ion-specific nutrient solutions. Although ion-specific dosing algorithms have been established, their effectiveness has been inadequately explored. In this study, a decision-tree-based dosing algorithm was developed to calculate the optimal volumes of individual nutrient stock solutions to be supplied for five major nutrient ions, i.e., NO 3 , K, Ca, P, and Mg, based on the concentrations of NO 3 , K, and Ca and remaining volume of the recycled nutrient solution. In the performance assessment based on five nutrient solution samples encompassing the typical concentration ranges for leafy vegetable cultivation, the ion-selective electrode array demonstrated feasible accuracies, with root mean square errors of 29.5, 10.1, and 6.1 mg·L -1 for NO 3 , K, and Ca, respectively. In a five-step replenishment test involving varying target concentrations and nutrient solution volumes, the system formulated nutrient solutions according to the specified targets, exhibiting average relative errors of 10.6 ± 8.0%, 7.9 ± 2.1%, 8.0 ± 11.0%, and 4.2 ± 3.7% for the Ca, K, and NO 3 concentrations and volume of the nutrient solution, respectively. Furthermore, the decision tree method helped reduce the total fertilizer injections and carbon emissions by 12.8% and 20.6% in the stepwise test, respectively. The findings demonstrate that the decision-tree-based dosing algorithm not only enables more efficient reuse of nutrient solution compared to the existing simplex method but also confirms the potential for reducing carbon emissions, indicating the possibility of sustainable agricultural development. The maintenance of ion balance in closed hydroponic solutions is essential to improve the crop quality and recycling efficiency of nutrient solutions. However, the absence of robust ion sensors for key ions such as P and Mg and the coupling of ions in fertilizer salts render it difficult to effectively manage ion-specific nutrient solutions. Although ion-specific dosing algorithms have been established, their effectiveness has been inadequately explored. In this study, a decision-tree-based dosing algorithm was developed to calculate the optimal volumes of individual nutrient stock solutions to be supplied for five major nutrient ions, i.e., NO3, K, Ca, P, and Mg, based on the concentrations of NO3, K, and Ca and remaining volume of the recycled nutrient solution. In the performance assessment based on five nutrient solution samples encompassing the typical concentration ranges for leafy vegetable cultivation, the ion-selective electrode array demonstrated feasible accuracies, with root mean square errors of 29.5, 10.1, and 6.1 mg·L-1 for NO3, K, and Ca, respectively. In a five-step replenishment test involving varying target concentrations and nutrient solution volumes, the system formulated nutrient solutions according to the specified targets, exhibiting average relative errors of 10.6 ± 8.0%, 7.9 ± 2.1%, 8.0 ± 11.0%, and 4.2 ± 3.7% for the Ca, K, and NO3 concentrations and volume of the nutrient solution, respectively. Furthermore, the decision tree method helped reduce the total fertilizer injections and carbon emissions by 12.8% and 20.6% in the stepwise test, respectively. The findings demonstrate that the decision-tree-based dosing algorithm not only enables more efficient reuse of nutrient solution compared to the existing simplex method but also confirms the potential for reducing carbon emissions, indicating the possibility of sustainable agricultural development.The maintenance of ion balance in closed hydroponic solutions is essential to improve the crop quality and recycling efficiency of nutrient solutions. However, the absence of robust ion sensors for key ions such as P and Mg and the coupling of ions in fertilizer salts render it difficult to effectively manage ion-specific nutrient solutions. Although ion-specific dosing algorithms have been established, their effectiveness has been inadequately explored. In this study, a decision-tree-based dosing algorithm was developed to calculate the optimal volumes of individual nutrient stock solutions to be supplied for five major nutrient ions, i.e., NO3, K, Ca, P, and Mg, based on the concentrations of NO3, K, and Ca and remaining volume of the recycled nutrient solution. In the performance assessment based on five nutrient solution samples encompassing the typical concentration ranges for leafy vegetable cultivation, the ion-selective electrode array demonstrated feasible accuracies, with root mean square errors of 29.5, 10.1, and 6.1 mg·L-1 for NO3, K, and Ca, respectively. In a five-step replenishment test involving varying target concentrations and nutrient solution volumes, the system formulated nutrient solutions according to the specified targets, exhibiting average relative errors of 10.6 ± 8.0%, 7.9 ± 2.1%, 8.0 ± 11.0%, and 4.2 ± 3.7% for the Ca, K, and NO3 concentrations and volume of the nutrient solution, respectively. Furthermore, the decision tree method helped reduce the total fertilizer injections and carbon emissions by 12.8% and 20.6% in the stepwise test, respectively. The findings demonstrate that the decision-tree-based dosing algorithm not only enables more efficient reuse of nutrient solution compared to the existing simplex method but also confirms the potential for reducing carbon emissions, indicating the possibility of sustainable agricultural development. The maintenance of ion balance in closed hydroponic solutions is essential to improve the crop quality and recycling efficiency of nutrient solutions. However, the absence of robust ion sensors for key ions such as P and Mg and the coupling of ions in fertilizer salts render it difficult to effectively manage ion-specific nutrient solutions. Although ion-specific dosing algorithms have been established, their effectiveness has been inadequately explored. In this study, a decision-tree-based dosing algorithm was developed to calculate the optimal volumes of individual nutrient stock solutions to be supplied for five major nutrient ions, i.e., NO3, K, Ca, P, and Mg, based on the concentrations of NO3, K, and Ca and remaining volume of the recycled nutrient solution. In the performance assessment based on five nutrient solution samples encompassing the typical concentration ranges for leafy vegetable cultivation, the ion-selective electrode array demonstrated feasible accuracies, with root mean square errors of 29.5, 10.1, and 6.1 mg·L-1 for NO3, K, and Ca, respectively. In a five-step replenishment test involving varying target concentrations and nutrient solution volumes, the system formulated nutrient solutions according to the specified targets, exhibiting average relative errors of 10.6 ± 8.0%, 7.9 ± 2.1%, 8.0 ± 11.0%, and 4.2 ± 3.7% for the Ca, K, and NO3 concentrations and volume of the nutrient solution, respectively. Furthermore, the decision tree method helped reduce the total fertilizer injections and carbon emissions by 12.8% and 20.6% in the stepwise test, respectively. The findings demonstrate that the decision-tree-based dosing algorithm not only enables more efficient reuse of nutrient solution compared to the existing simplex method but also confirms the potential for reducing carbon emissions, indicating the possibility of sustainable agricultural development. |
| Author | Kim, JooShin Jung, Dae-Hyun Kim, Dong-Wook Cho, Woo-Jae Gang, Min-Seok Kim, Hak-Jin |
| AuthorAffiliation | 1 Department of Biosystems Engineering, College of Agriculture & Life Sciences, Gyeongsang National University , Jinju , Republic of Korea 2 Institute of Smart Farm, Gyeongsang National University , Jinju , Republic of Korea 3 Department of Biosystems Engineering, College of Agriculture and Life Sciences, Seoul National University , Seoul , Republic of Korea 5 Department of Smart Farm Science, Kyung Hee University , Yongin , Republic of Korea 4 Integrated Major in Global Smart Farm, College of Agriculture and Life Sciences, Seoul National University , Seoul , Republic of Korea |
| AuthorAffiliation_xml | – name: 2 Institute of Smart Farm, Gyeongsang National University , Jinju , Republic of Korea – name: 3 Department of Biosystems Engineering, College of Agriculture and Life Sciences, Seoul National University , Seoul , Republic of Korea – name: 5 Department of Smart Farm Science, Kyung Hee University , Yongin , Republic of Korea – name: 4 Integrated Major in Global Smart Farm, College of Agriculture and Life Sciences, Seoul National University , Seoul , Republic of Korea – name: 1 Department of Biosystems Engineering, College of Agriculture & Life Sciences, Gyeongsang National University , Jinju , Republic of Korea |
| Author_xml | – sequence: 1 givenname: Woo-Jae surname: Cho fullname: Cho, Woo-Jae – sequence: 2 givenname: Min-Seok surname: Gang fullname: Gang, Min-Seok – sequence: 3 givenname: Dong-Wook surname: Kim fullname: Kim, Dong-Wook – sequence: 4 givenname: JooShin surname: Kim fullname: Kim, JooShin – sequence: 5 givenname: Dae-Hyun surname: Jung fullname: Jung, Dae-Hyun – sequence: 6 givenname: Hak-Jin surname: Kim fullname: Kim, Hak-Jin |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/38164248$$D View this record in MEDLINE/PubMed |
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| CitedBy_id | crossref_primary_10_3390_agronomy15010051 crossref_primary_10_3390_agriengineering6040274 crossref_primary_10_1021_acsomega_3c09060 crossref_primary_10_3390_app14188140 |
| Cites_doi | 10.13031/trans.58.11228 10.3390/horticulturae9020185 10.1016/j.compag.2018.12.025 10.1007/s42853-021-00089-8 10.3390/s19245508 10.1080/01904167.2012.754037 10.3389/fenvs.2022.965964 10.1016/j.saa.2023.123327 10.2116/analsci.18A003 10.2116/analsci.20A002 10.1186/s13007-019-0443-7 10.1016/j.rser.2019.109542 10.1016/j.compag.2015.01.014 10.3390/s121013349 10.13031/trans.12163 10.1016/j.foodchem.2013.09.114 10.1016/B978-0-12-816691-8.00020-0 10.1039/D1RA00140J 10.1201/b12500 10.1016/S0925-4005(04)00113-3 10.3389/fpls.2019.00923 10.3389/fpls.2021.656403 10.7235/hort.2013.13028 10.1016/j.agwat.2015.11.013 10.1016/j.compag.2012.02.006 10.1016/j.compag.2013.01.011 10.1007/s42853-023-00182-0 10.1002/bab.1317 10.1007/s10107-011-0482-y 10.1109/JSEN.2016.2580742 10.1016/j.jclepro.2016.09.120 10.17660/ActaHortic.1999.481.38 |
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| Copyright | Copyright © 2023 Cho, Gang, Kim, Kim, Jung and Kim. Copyright © 2023 Cho, Gang, Kim, Kim, Jung and Kim 2023 Cho, Gang, Kim, Kim, Jung and Kim |
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| Keywords | decision tree ion-selective electrodes ion-specific replenishment closed hydroponics dosing algorithm carbon dioxide emissions |
| Language | English |
| License | Copyright © 2023 Cho, Gang, Kim, Kim, Jung and Kim. This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner(s) are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms. cc-by |
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| Notes | ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 23 Debasis Mitra, National Rice Research Institute (ICAR), India Edited by: Yuriy L. Orlov, I.M.Sechenov First Moscow State Medical University, Russia Reviewed by: Pedro José Correia, University of Algarve, Portugal These authors have contributed equally to this work and share first authorship Rout George Kerry, Utkal University, India |
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| References | Xu (B37) 2019; 35 Xu (B38) 2020; 36 Shiyab (B29) 2013; 36 Sambo (B28) 2019; 10 Jung (B12) 2019; 156 Chowdhury (B6) 2021; 46 De Rijck (B7) 1994 Cho (B4) 2019; 19 Neocleous (B25) 2022; 10 Klespitz (B18) 2014 Rius-Ruiz (B27) 2014; 147 Cho (B5) 2017; 60 Sonneveld (B31) 1999; 481 Kim (B15) 2013; 93 Bamsey (B2) 2012; 12 Stevens (B32) 2023; 9 Sulaiman (B33) 2024; 304 Gieling (B10) 2005; 105 Domingues (B8) 2012; 84 Li (B21) 2016; 16 Katsoulas (B14) 2015; 113 Son (B30) 2020 Kozai (B20) 2018 Tuan (B34) 2021; 11 Neocleous (B24) 2016; 165 Hoagland (B11) 1950; 347 Brentrup (B3) 2018 Wang (B36) 2017; 141 Resh (B26) 2016 Ko (B19) 2013; 31 Kitahara (B17) 2013; 137 Jung (B13) 2015; 58 Namazkhan (B23) 2020; 119 Geoffrey (B9) 1997 Kim (B16) 2023; 48 Moon (B22) 2019; 15 Vardar (B35) 2015; 62 Ahn (B1) 2021; 12 |
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| Snippet | The maintenance of ion balance in closed hydroponic solutions is essential to improve the crop quality and recycling efficiency of nutrient solutions. However,... |
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| SubjectTerms | carbon dioxide emissions closed hydroponics decision tree dosing algorithm ion-selective electrodes ion-specific replenishment Plant Science |
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| Title | Decision-tree-based ion-specific dosing algorithm for enhancing closed hydroponic efficiency and reducing carbon emissions |
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