Innovative Regenerative Technologies for Enhancing Resilience in Salinity‐Stressed Rice Fields Along the Indonesian Coast: Promoting Net‐Zero Farming Practices to Adapt to Climate Change
ABSTRACT Rice cultivation significantly contributes to greenhouse gas (GHG) emissions, particularly methane released from flooded paddy fields, exacerbating climate change. At the same time, rice farming is highly sensitive to climate conditions, with climate change introducing various abiotic stres...
Saved in:
| Main Authors: | , , , , , , , |
|---|---|
| Format: | Article |
| Language: | English |
| Published: |
Wiley
2024-10-01
|
| Series: | Journal of Sustainable Agriculture and Environment |
| Subjects: | |
| Online Access: | https://doi.org/10.1002/sae2.70026 |
| Tags: |
Add Tag
No Tags, Be the first to tag this record!
|
| _version_ | 1850239117904838656 |
|---|---|
| author | Irwandhi Irwandhi Fiqriah Hanum Khumairah Emma Trinurani Sofyan Ukit Ukit Rievansyah Eka Satria Annisya Salsabilla Muhamad Sopyan Sauri Tualar Simarmata |
| author_facet | Irwandhi Irwandhi Fiqriah Hanum Khumairah Emma Trinurani Sofyan Ukit Ukit Rievansyah Eka Satria Annisya Salsabilla Muhamad Sopyan Sauri Tualar Simarmata |
| author_sort | Irwandhi Irwandhi |
| collection | DOAJ |
| description | ABSTRACT Rice cultivation significantly contributes to greenhouse gas (GHG) emissions, particularly methane released from flooded paddy fields, exacerbating climate change. At the same time, rice farming is highly sensitive to climate conditions, with climate change introducing various abiotic stresses, notably salinity stress. This is especially critical in coastal regions like Indonesia, where rising sea levels and land degradation worsen the salinity challenge. This review systematically examines salinity stress in coastal rice cultivation, the impact of climate change on salinity dynamics and crop performance, and the potential of innovative regenerative technologies to enhance resilience and create low‐salinity, net‐zero agricultural systems. We conducted a systematic literature review following PRISMA guidelines, supplemented by a bibliometric analysis using Scopus, employing keywords such as “salinity stress”, “rice”, “agriculture”, “climate change” and “regenerative”. From an initial 2,191 articles, 18 were deemed eligible for further analysis. Findings indicate that increased soil salinity adversely affects rice production, yet innovative strategies such as rhizomicrobiome engineering, salt‐tolerant rice varieties, regenerative soil amendments, irrigation management, agricultural practices offer viable solutions to mitigate salinity stress. Furthermore, adopting net‐zero farming practices can help achieve carbon neutrality in agriculture while significantly reducing GHG emissions. This review highlights the need for a collaborative approach among scientists, farmers, and policymakers to scale these innovations, ensuring their implementation not only in Indonesia but also in other regions facing similar challenges, thereby promoting food security and environmental sustainability in the face of climate change. |
| format | Article |
| id | doaj-art-e34e8dce85824f55a2cb4eb56b28b8dd |
| institution | OA Journals |
| issn | 2767-035X |
| language | English |
| publishDate | 2024-10-01 |
| publisher | Wiley |
| record_format | Article |
| series | Journal of Sustainable Agriculture and Environment |
| spelling | doaj-art-e34e8dce85824f55a2cb4eb56b28b8dd2025-08-20T02:01:15ZengWileyJournal of Sustainable Agriculture and Environment2767-035X2024-10-0134n/an/a10.1002/sae2.70026Innovative Regenerative Technologies for Enhancing Resilience in Salinity‐Stressed Rice Fields Along the Indonesian Coast: Promoting Net‐Zero Farming Practices to Adapt to Climate ChangeIrwandhi Irwandhi0Fiqriah Hanum Khumairah1Emma Trinurani Sofyan2Ukit Ukit3Rievansyah Eka Satria4Annisya Salsabilla5Muhamad Sopyan Sauri6Tualar Simarmata7Department of Soil Science and Land Resources, Faculty of Agriculture Universitas Padjadjaran Bandung IndonesiaDepartment of Soil Science and Land Resources, Faculty of Agriculture Universitas Padjadjaran Bandung IndonesiaDepartment of Soil Science and Land Resources, Faculty of Agriculture Universitas Padjadjaran Bandung IndonesiaDepartment of Soil Science and Land Resources, Faculty of Agriculture Universitas Padjadjaran Bandung IndonesiaDepartment of Soil Science and Land Resources, Faculty of Agriculture Universitas Padjadjaran Bandung IndonesiaDepartment of Soil Science and Land Resources, Faculty of Agriculture Universitas Padjadjaran Bandung IndonesiaDepartment of Soil Science and Land Resources, Faculty of Agriculture Universitas Padjadjaran Bandung IndonesiaDepartment of Soil Science and Land Resources, Faculty of Agriculture Universitas Padjadjaran Bandung IndonesiaABSTRACT Rice cultivation significantly contributes to greenhouse gas (GHG) emissions, particularly methane released from flooded paddy fields, exacerbating climate change. At the same time, rice farming is highly sensitive to climate conditions, with climate change introducing various abiotic stresses, notably salinity stress. This is especially critical in coastal regions like Indonesia, where rising sea levels and land degradation worsen the salinity challenge. This review systematically examines salinity stress in coastal rice cultivation, the impact of climate change on salinity dynamics and crop performance, and the potential of innovative regenerative technologies to enhance resilience and create low‐salinity, net‐zero agricultural systems. We conducted a systematic literature review following PRISMA guidelines, supplemented by a bibliometric analysis using Scopus, employing keywords such as “salinity stress”, “rice”, “agriculture”, “climate change” and “regenerative”. From an initial 2,191 articles, 18 were deemed eligible for further analysis. Findings indicate that increased soil salinity adversely affects rice production, yet innovative strategies such as rhizomicrobiome engineering, salt‐tolerant rice varieties, regenerative soil amendments, irrigation management, agricultural practices offer viable solutions to mitigate salinity stress. Furthermore, adopting net‐zero farming practices can help achieve carbon neutrality in agriculture while significantly reducing GHG emissions. This review highlights the need for a collaborative approach among scientists, farmers, and policymakers to scale these innovations, ensuring their implementation not only in Indonesia but also in other regions facing similar challenges, thereby promoting food security and environmental sustainability in the face of climate change.https://doi.org/10.1002/sae2.70026climate adaptationcoastal rice farmingnet zero farmingregenerative agriculturesalinity stress |
| spellingShingle | Irwandhi Irwandhi Fiqriah Hanum Khumairah Emma Trinurani Sofyan Ukit Ukit Rievansyah Eka Satria Annisya Salsabilla Muhamad Sopyan Sauri Tualar Simarmata Innovative Regenerative Technologies for Enhancing Resilience in Salinity‐Stressed Rice Fields Along the Indonesian Coast: Promoting Net‐Zero Farming Practices to Adapt to Climate Change Journal of Sustainable Agriculture and Environment climate adaptation coastal rice farming net zero farming regenerative agriculture salinity stress |
| title | Innovative Regenerative Technologies for Enhancing Resilience in Salinity‐Stressed Rice Fields Along the Indonesian Coast: Promoting Net‐Zero Farming Practices to Adapt to Climate Change |
| title_full | Innovative Regenerative Technologies for Enhancing Resilience in Salinity‐Stressed Rice Fields Along the Indonesian Coast: Promoting Net‐Zero Farming Practices to Adapt to Climate Change |
| title_fullStr | Innovative Regenerative Technologies for Enhancing Resilience in Salinity‐Stressed Rice Fields Along the Indonesian Coast: Promoting Net‐Zero Farming Practices to Adapt to Climate Change |
| title_full_unstemmed | Innovative Regenerative Technologies for Enhancing Resilience in Salinity‐Stressed Rice Fields Along the Indonesian Coast: Promoting Net‐Zero Farming Practices to Adapt to Climate Change |
| title_short | Innovative Regenerative Technologies for Enhancing Resilience in Salinity‐Stressed Rice Fields Along the Indonesian Coast: Promoting Net‐Zero Farming Practices to Adapt to Climate Change |
| title_sort | innovative regenerative technologies for enhancing resilience in salinity stressed rice fields along the indonesian coast promoting net zero farming practices to adapt to climate change |
| topic | climate adaptation coastal rice farming net zero farming regenerative agriculture salinity stress |
| url | https://doi.org/10.1002/sae2.70026 |
| work_keys_str_mv | AT irwandhiirwandhi innovativeregenerativetechnologiesforenhancingresilienceinsalinitystressedricefieldsalongtheindonesiancoastpromotingnetzerofarmingpracticestoadapttoclimatechange AT fiqriahhanumkhumairah innovativeregenerativetechnologiesforenhancingresilienceinsalinitystressedricefieldsalongtheindonesiancoastpromotingnetzerofarmingpracticestoadapttoclimatechange AT emmatrinuranisofyan innovativeregenerativetechnologiesforenhancingresilienceinsalinitystressedricefieldsalongtheindonesiancoastpromotingnetzerofarmingpracticestoadapttoclimatechange AT ukitukit innovativeregenerativetechnologiesforenhancingresilienceinsalinitystressedricefieldsalongtheindonesiancoastpromotingnetzerofarmingpracticestoadapttoclimatechange AT rievansyahekasatria innovativeregenerativetechnologiesforenhancingresilienceinsalinitystressedricefieldsalongtheindonesiancoastpromotingnetzerofarmingpracticestoadapttoclimatechange AT annisyasalsabilla innovativeregenerativetechnologiesforenhancingresilienceinsalinitystressedricefieldsalongtheindonesiancoastpromotingnetzerofarmingpracticestoadapttoclimatechange AT muhamadsopyansauri innovativeregenerativetechnologiesforenhancingresilienceinsalinitystressedricefieldsalongtheindonesiancoastpromotingnetzerofarmingpracticestoadapttoclimatechange AT tualarsimarmata innovativeregenerativetechnologiesforenhancingresilienceinsalinitystressedricefieldsalongtheindonesiancoastpromotingnetzerofarmingpracticestoadapttoclimatechange |