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Climate-smart agriculture

November 18, 2023

Climate-smart agriculture (CSA) (or climate resilient agriculture) is an integrated approach to managing land to help adapt agricultural methods, livestock and crops to the effects of climate change and, where possible, counteract it by reducing greenhouse gas emissions from agriculture, while taking into account the growing world population to ensure food security.[1] The emphasis is not simply on carbon farming or sustainable agriculture, but also on increasing agricultural productivity.

A local farmer in Myanmar poses in front of a mango field that is a part of a Climate Smart Village.

CSA has three pillars: increasing agricultural productivity and incomes; adapting and building resilience to climate change; and reducing or removing greenhouse gas emissions from agriculture.[2] There are different actions listed to counter the future challenges for crops and plants. For example, with regard to rising temperatures and heat stress, CSA recommends the production of heat tolerant crop varieties, mulching, water management, shade house, boundary trees, carbon sequestration,[3] and appropriate housing and spacing for cattle.[4] CSA seeks to stabilize crop production while mitigating the adverse impacts of climate change while maximizing food security.[5][6]

There are attempts to mainstream CSA into core government policies, expenditures and planning frameworks. In order for CSA policies to be effective, they must be able to contribute to broader economic growth, the sustainable development goals and poverty reduction. They must also be integrated with disaster risk management strategies, actions, and social safety net programmes.[7]

Components edit

CSA has three components: increasing agricultural productivity and incomes; adapting and building resilience to climate change; and reducing or removing greenhouse gas emissions from agriculture.

Carbon farming edit

Carbon farming is one of the components of climate-smart agriculture and aims at reducing or removing greenhouse gas emissions from agriculture. .

This section is an excerpt from Carbon farming.[edit]

Carbon farming is a name for a variety of agricultural methods aimed at sequestering atmospheric carbon into the soil and in crop roots, wood and leaves. The aim of carbon farming is to increase the rate at which carbon is sequestered into soil and plant material with the goal of creating a net loss of carbon from the atmosphere.[8] Increasing a soil's organic matter content can aid plant growth, increase total carbon content, improve soil water retention capacity[9] and reduce fertilizer use.[10] Carbon farming is one component of climate-smart agriculture.

Carbon emission reduction methods in agriculture can be grouped into two categories: reducing and displacing emissions and enhancing carbon sequestration. Reductions include increasing the efficiency of farm operations (e.g. more fuel-efficient equipment) and interrupting the natural carbon cycle.

Climate-smart agriculture and gender edit

See also: Climate change and gender
 
Woman picking peas in the Mount Kenya region, for the Two Degrees Up[11] project, to look at the impact of climate change on agriculture.

Men, women, boys, and girls are affected by climate change in different ways. To increase the effectiveness and sustainability of CSA interventions, they must be designed to address gender inequalities and discriminations against people at risk. Gender gap in agriculture implies that men and women farmers have varying access to resources to prepare for and respond to climate change. Women farmers are more prone to climate risk than men are. It has been reported that in developing countries, women have less access compared to men to productive resources, financial capital, and advisory services. They often tend to be excluded from decision making which may impact on their adoption of technologies and practices that could help them adapt to climatic conditions. A gender-responsive approach to CSA tries to identify and address the diverse constraints faced by men and women and recognizes their specific capabilities.[12] Climate-smart agriculture presents opportunities for women in agriculture to engage in sustainable production. There is need to level the field and CSA is an opportunity for women in agriculture to engage more productively.[13]

Methods and assessment edit

Food and Agriculture Organization edit

Strategies and methods for CSA should be specific to the local contexts where they are employed. They should include capacity-building for participants in order to offset the higher costs of implementation.[14]

CSA ... is in line with FAO’s vision for Sustainable Food and Agriculture and supports FAO’s goal to make agriculture, forestry and fisheries more productive and more sustainable.[2][15]

FAO has identified several tools for countries and individuals to assess, monitor and evaluate integral parts of CSA planning and implementation:[16]

  1. Modelling System for Agricultural Impacts of Climate Change (MOSAICC)
  2. Global Livestock Environmental Assessment Model (GLEAM)
  3. Sustainability Assessment of Food and Agriculture (SAFA) system[17]
  4. Economics and Policy Innovations for Climate-Smart Agriculture (EPIC)
  5. Ex-Ante Carbon-balance Tool (EX-ACT)
  6. Climate Risk Management (CRM)
  7. Gender mainstreaming
  8. Monitoring and Assessment of Greenhouse Gas Emissions and Mitigation Potential in Agriculture (MAGHG) project

European Union edit

The EU has promoted development of climate-smart agriculture and forestry practices[18] as part of the EU Green Deal Policy.[19] Contradictions surrounding practical value of CSA among consumers and suppliers may be the reason why the EU is lagging here compared to other areas of the world.[20] A critical assessment of progress was carried out using different multi-criteria indices covering socio-economic, technical and environmental factors.[21] The results indicated that the most advanced CSA countries within the EU are Austria, Denmark and the Netherlands while Cyprus, Greece and Portugal have the lowest levels of CSA penetration. Key factors included labor productivity, female ownership of farmland, level of education, degree of poverty and social exclusion, energy consumption/efficiency and biomass/crop productivity.

Global initiatives edit

AIM for Climate edit

The Agriculture Innovation Mission for Climate (AIM for Climate/AIM4C) is a 5-year initiative to 2025, organized jointly by the UN, US and UAE.[22] The objective is to rally around climate-smart agriculture and food system innovations. It has attracted some 500 government and non-government organizations around the world and about 10 billion USD from governments and 3 billion USD from other sources.[23] The initiative was introduced during COP-26 in Glasgow.[24]

Consultative Group on International Agricultural Research (CGIAR) edit

The CGIAR as part of the AIM4C summit in May 2023 called for a number of actions:[25]

1. Integration of initiatives from the partner organizations

2. Enabling innovative financing

3. Production of radical policy and governance reform based on evidence

4. Promotion of project monitoring, evaluation, and learning

Global Roadmap to 2050 for Food and Agriculture edit

 
Global food systems GHG emissions in 2020 for different agriculture sectors in terms of gigatons of CO2 equivalents.

Several actors are involved in creating pathways towards net-zero emissions in global food systems.[26]

Four areas of focus relate to:

1. lowered GHG-emission practices by increasing production efficiency

2. increased sequestration of carbon in croplands and grasslands

3. shifting of human diets away from livestock protein

4. taking on "new-horizon" technologies within the food systems

Livestock production (beef, pork, chicken, sheep and milk) alone accounts for 60% of total global food system GHG emissions.[26] Rice, maize and wheat stand for 25% of the global emissions from food systems.

Challenges edit

The greatest concern with CSA is that no universally acceptable standard exists against which those who call themselves "climate-smart" are actually acting climate smart. Until those certifications are created and met, skeptics are concerned that big businesses will just continue to use the name to ‘greenwash’ their organizations—or provide a false sense of environmental stewardship.[27] CSA can be seen as a meaningless label that is applicable to virtually anything, and this is deliberate as it is meant to conceal the social, political and environmental implications of the different technology choices.

In 2014 The Guardian reported that climate-smart agriculture had been criticised as a form of greenwashing.[28]

See also edit

References edit

  1. ^ "Climate-Smart Agriculture". World Bank. Retrieved 2019-07-26.
  2. ^ a b "Climate-Smart Agriculture". Food and Agriculture Organization of the United Nations. 2019-06-19. Retrieved 2019-07-26.
  3. ^ Das, Sharmistha; Chatterjee, Soumendu; Rajbanshi, Joy (2022-01-20). "Responses of soil organic carbon to conservation practices including climate-smart agriculture in tropical and subtropical regions: A meta-analysis". Science of the Total Environment. 805: 150428. Bibcode:2022ScTEn.805o0428D. doi:10.1016/j.scitotenv.2021.150428. ISSN 0048-9697. PMID 34818818. S2CID 240584637.
  4. ^ Deutsche Gesellschaft fur Internationale Zusammenarbeit (GIZ). "What is Climate Smart Agriculture?" (PDF). Retrieved 2022-06-04.
  5. ^ Gupta, Debaditya; Gujre, Nihal; Singha, Siddhartha; Mitra, Sudip (2022-11-01). "Role of existing and emerging technologies in advancing climate-smart agriculture through modeling: A review". Ecological Informatics. 71: 101805. doi:10.1016/j.ecoinf.2022.101805. ISSN 1574-9541. S2CID 252148026.
  6. ^ Lipper, Leslie; McCarthy, Nancy; Zilberman, David; Asfaw, Solomon; Branca, Giacomo (2018). Climate Smart Agriculture Building Resilience to Climate Change. Cham, Switzerland: Springer. p. 13. ISBN 978-3-319-61193-8.
  7. ^ "Climate-Smart Agriculture Policies and planning". from the original on 2016-03-31.
  8. ^ Nath, Arun Jyoti; Lal, Rattan; Das, Ashesh Kumar (2015-01-01). "Managing woody bamboos for carbon farming and carbon trading". Global Ecology and Conservation. 3: 654–663. doi:10.1016/j.gecco.2015.03.002. ISSN 2351-9894.
  9. ^ . www.carboncycle.org. Archived from the original on 2021-05-21. Retrieved 2018-04-27.
  10. ^ Almaraz, Maya; Wong, Michelle Y.; Geoghegan, Emily K.; Houlton, Benjamin Z. (2021). "A review of carbon farming impacts on nitrogen cycling, retention, and loss". Annals of the New York Academy of Sciences. 1505 (1): 102–117. doi:10.1111/nyas.14690. ISSN 0077-8923. S2CID 238202676.
  11. ^ "Two Degrees Up: climate change photofilms". ccafs.cgiar.org. 2013-06-18. Retrieved 2023-08-14.
  12. ^ "How to integrate gender issues in climate-smart agriculture projects" (PDF). (PDF) from the original on 2020-10-21.
  13. ^ World Bank Group; FAO; IFAD (2015). "Gender in Climate-Smart Agriculture".
  14. ^ The State of Food and Agriculture Climate Change, Agriculture and Food Security (PDF). Rome, Italy: Food and Agriculture Organization of the United Nations. 2016. pp. 43–66. ISBN 978-92-5-109374-0.
  15. ^ "CLIMATE-SMART AGRICULTURE Sourcebook" (PDF). Food and agriculture organization of the United Nations. 2013.
  16. ^ "Climate-Smart Agriculture Methods & Assessments". from the original on 2016-04-07.
  17. ^ "Sustainability Pathways: FAQ".
  18. ^ https://ec.europa.eu/eip/agriculture/sites/default/files/eip-agri_brochure_climate-smart_agriculture_2021_en_web_final.pdf
  19. ^ "European Green Deal". climate.ec.europa.eu. 14 July 2021. Retrieved 2023-08-13.
  20. ^ Long, Thomas B.; Blok, Vincent; Coninx, Ingrid (2016-01-20). "Barriers to the adoption and diffusion of technological innovations for climate-smart agriculture in Europe: evidence from the Netherlands, France, Switzerland and Italy". Journal of Cleaner Production. 112: 9–21. doi:10.1016/j.jclepro.2015.06.044. ISSN 0959-6526.
  21. ^ Morkunas, Mangirdas; Volkov, Artiom (2023-06-01). "The Progress of the Development of a Climate-smart Agriculture in Europe: Is there Cohesion in the European Union?". Environmental Management. 71 (6): 1111–1127. doi:10.1007/s00267-022-01782-w. ISSN 1432-1009. PMID 36648532. S2CID 255941160.
  22. ^ "AIM for Climate". www.aimforclimate.org. Retrieved 2023-08-13.
  23. ^ National, The (2023-05-11). "Biden hails UAE partnership for advancing agricultural innovation and improving lives". The National. Retrieved 2023-08-13.
  24. ^ Service, SME News (2023-07-18). "Insight: AIM4C – Revolutionising Agriculture for Climate Resilience and Food Security". Sustainability Middle East News. Retrieved 2023-08-13.
  25. ^ "Enabling innovation for breakthroughs in agriculture: Key recommendations as the AIM for Climate Summit kicks off". CGIAR. Retrieved 2023-08-13.
  26. ^ a b Costa, Ciniro; Wollenberg, Eva; Benitez, Mauricio; Newman, Richard; Gardner, Nick; Bellone, Federico (2022-09-05). "Roadmap for achieving net-zero emissions in global food systems by 2050". Scientific Reports. 12 (1): 15064. Bibcode:2022NatSR..1215064C. doi:10.1038/s41598-022-18601-1. ISSN 2045-2322. PMC 9442557. PMID 36065006.
  27. ^ "The Debate Over 'Climate-Smart' Agriculture". from the original on 2016-04-28.
  28. ^ Anderson, Teresa (17 October 2014). "Why 'climate-smart agriculture' isn't all it's cracked up to be". The Guardian. ISSN 0261-3077. Retrieved 2019-07-26 – via www.theguardian.com.

November 18, 2023
climate, smart, agriculture, climate, resilient, agriculture, integrated, approach, managing, land, help, adapt, agricultural, methods, livestock, crops, effects, climate, change, where, possible, counteract, reducing, greenhouse, emissions, from, agriculture,. Climate smart agriculture CSA or climate resilient agriculture is an integrated approach to managing land to help adapt agricultural methods livestock and crops to the effects of climate change and where possible counteract it by reducing greenhouse gas emissions from agriculture while taking into account the growing world population to ensure food security 1 The emphasis is not simply on carbon farming or sustainable agriculture but also on increasing agricultural productivity A local farmer in Myanmar poses in front of a mango field that is a part of a Climate Smart Village CSA has three pillars increasing agricultural productivity and incomes adapting and building resilience to climate change and reducing or removing greenhouse gas emissions from agriculture 2 There are different actions listed to counter the future challenges for crops and plants For example with regard to rising temperatures and heat stress CSA recommends the production of heat tolerant crop varieties mulching water management shade house boundary trees carbon sequestration 3 and appropriate housing and spacing for cattle 4 CSA seeks to stabilize crop production while mitigating the adverse impacts of climate change while maximizing food security 5 6 There are attempts to mainstream CSA into core government policies expenditures and planning frameworks In order for CSA policies to be effective they must be able to contribute to broader economic growth the sustainable development goals and poverty reduction They must also be integrated with disaster risk management strategies actions and social safety net programmes 7 Contents 1 Components 1 1 Carbon farming 1 2 Climate smart agriculture and gender 2 Methods and assessment 2 1 Food and Agriculture Organization 2 2 European Union 3 Global initiatives 3 1 AIM for Climate 3 2 Consultative Group on International Agricultural Research CGIAR 3 3 Global Roadmap to 2050 for Food and Agriculture 4 Challenges 5 See also 6 ReferencesComponents editCSA has three components increasing agricultural productivity and incomes adapting and building resilience to climate change and reducing or removing greenhouse gas emissions from agriculture Carbon farming edit Carbon farming is one of the components of climate smart agriculture and aims at reducing or removing greenhouse gas emissions from agriculture This section is an excerpt from Carbon farming edit Carbon farming is a name for a variety of agricultural methods aimed at sequestering atmospheric carbon into the soil and in crop roots wood and leaves The aim of carbon farming is to increase the rate at which carbon is sequestered into soil and plant material with the goal of creating a net loss of carbon from the atmosphere 8 Increasing a soil s organic matter content can aid plant growth increase total carbon content improve soil water retention capacity 9 and reduce fertilizer use 10 Carbon farming is one component of climate smart agriculture Carbon emission reduction methods in agriculture can be grouped into two categories reducing and displacing emissions and enhancing carbon sequestration Reductions include increasing the efficiency of farm operations e g more fuel efficient equipment and interrupting the natural carbon cycle Climate smart agriculture and gender edit See also Climate change and gender nbsp Woman picking peas in the Mount Kenya region for the Two Degrees Up 11 project to look at the impact of climate change on agriculture Men women boys and girls are affected by climate change in different ways To increase the effectiveness and sustainability of CSA interventions they must be designed to address gender inequalities and discriminations against people at risk Gender gap in agriculture implies that men and women farmers have varying access to resources to prepare for and respond to climate change Women farmers are more prone to climate risk than men are It has been reported that in developing countries women have less access compared to men to productive resources financial capital and advisory services They often tend to be excluded from decision making which may impact on their adoption of technologies and practices that could help them adapt to climatic conditions A gender responsive approach to CSA tries to identify and address the diverse constraints faced by men and women and recognizes their specific capabilities 12 Climate smart agriculture presents opportunities for women in agriculture to engage in sustainable production There is need to level the field and CSA is an opportunity for women in agriculture to engage more productively 13 Methods and assessment editFood and Agriculture Organization edit Strategies and methods for CSA should be specific to the local contexts where they are employed They should include capacity building for participants in order to offset the higher costs of implementation 14 CSA is in line with FAO s vision for Sustainable Food and Agriculture and supports FAO s goal to make agriculture forestry and fisheries more productive and more sustainable 2 15 FAO has identified several tools for countries and individuals to assess monitor and evaluate integral parts of CSA planning and implementation 16 Modelling System for Agricultural Impacts of Climate Change MOSAICC Global Livestock Environmental Assessment Model GLEAM Sustainability Assessment of Food and Agriculture SAFA system 17 Economics and Policy Innovations for Climate Smart Agriculture EPIC Ex Ante Carbon balance Tool EX ACT Climate Risk Management CRM Gender mainstreaming Monitoring and Assessment of Greenhouse Gas Emissions and Mitigation Potential in Agriculture MAGHG projectEuropean Union edit The EU has promoted development of climate smart agriculture and forestry practices 18 as part of the EU Green Deal Policy 19 Contradictions surrounding practical value of CSA among consumers and suppliers may be the reason why the EU is lagging here compared to other areas of the world 20 A critical assessment of progress was carried out using different multi criteria indices covering socio economic technical and environmental factors 21 The results indicated that the most advanced CSA countries within the EU are Austria Denmark and the Netherlands while Cyprus Greece and Portugal have the lowest levels of CSA penetration Key factors included labor productivity female ownership of farmland level of education degree of poverty and social exclusion energy consumption efficiency and biomass crop productivity Global initiatives editAIM for Climate edit The Agriculture Innovation Mission for Climate AIM for Climate AIM4C is a 5 year initiative to 2025 organized jointly by the UN US and UAE 22 The objective is to rally around climate smart agriculture and food system innovations It has attracted some 500 government and non government organizations around the world and about 10 billion USD from governments and 3 billion USD from other sources 23 The initiative was introduced during COP 26 in Glasgow 24 Consultative Group on International Agricultural Research CGIAR edit The CGIAR as part of the AIM4C summit in May 2023 called for a number of actions 25 1 Integration of initiatives from the partner organizations2 Enabling innovative financing3 Production of radical policy and governance reform based on evidence4 Promotion of project monitoring evaluation and learning Global Roadmap to 2050 for Food and Agriculture edit nbsp Global food systems GHG emissions in 2020 for different agriculture sectors in terms of gigatons of CO2 equivalents Several actors are involved in creating pathways towards net zero emissions in global food systems 26 Four areas of focus relate to 1 lowered GHG emission practices by increasing production efficiency2 increased sequestration of carbon in croplands and grasslands3 shifting of human diets away from livestock protein4 taking on new horizon technologies within the food systemsLivestock production beef pork chicken sheep and milk alone accounts for 60 of total global food system GHG emissions 26 Rice maize and wheat stand for 25 of the global emissions from food systems Challenges editThe greatest concern with CSA is that no universally acceptable standard exists against which those who call themselves climate smart are actually acting climate smart Until those certifications are created and met skeptics are concerned that big businesses will just continue to use the name to greenwash their organizations or provide a false sense of environmental stewardship 27 CSA can be seen as a meaningless label that is applicable to virtually anything and this is deliberate as it is meant to conceal the social political and environmental implications of the different technology choices In 2014 The Guardian reported that climate smart agriculture had been criticised as a form of greenwashing 28 See also editClimate resilience Effects of climate change on agriculture Greenhouse gas emissions from agriculture Agroindustry Electric tractorReferences edit Climate Smart Agriculture World Bank Retrieved 2019 07 26 a b Climate Smart Agriculture Food and Agriculture Organization of the United Nations 2019 06 19 Retrieved 2019 07 26 Das Sharmistha Chatterjee Soumendu Rajbanshi Joy 2022 01 20 Responses of soil organic carbon to conservation practices including climate smart agriculture in tropical and subtropical regions A meta analysis Science of the Total Environment 805 150428 Bibcode 2022ScTEn 805o0428D doi 10 1016 j scitotenv 2021 150428 ISSN 0048 9697 PMID 34818818 S2CID 240584637 Deutsche Gesellschaft fur Internationale Zusammenarbeit GIZ What is Climate Smart Agriculture PDF Retrieved 2022 06 04 Gupta Debaditya Gujre Nihal Singha Siddhartha Mitra Sudip 2022 11 01 Role of existing and emerging technologies in advancing climate smart agriculture through modeling A review Ecological Informatics 71 101805 doi 10 1016 j ecoinf 2022 101805 ISSN 1574 9541 S2CID 252148026 Lipper Leslie McCarthy Nancy Zilberman David Asfaw Solomon Branca Giacomo 2018 Climate Smart Agriculture Building Resilience to Climate Change Cham Switzerland Springer p 13 ISBN 978 3 319 61193 8 Climate Smart Agriculture Policies and planning Archived from the original on 2016 03 31 Nath Arun Jyoti Lal Rattan Das Ashesh Kumar 2015 01 01 Managing woody bamboos for carbon farming and carbon trading Global Ecology and Conservation 3 654 663 doi 10 1016 j gecco 2015 03 002 ISSN 2351 9894 Carbon Farming Carbon Cycle Institute www carboncycle org Archived from the original on 2021 05 21 Retrieved 2018 04 27 Almaraz Maya Wong Michelle Y Geoghegan Emily K Houlton Benjamin Z 2021 A review of carbon farming impacts on nitrogen cycling retention and loss Annals of the New York Academy of Sciences 1505 1 102 117 doi 10 1111 nyas 14690 ISSN 0077 8923 S2CID 238202676 Two Degrees Up climate change photofilms ccafs cgiar org 2013 06 18 Retrieved 2023 08 14 How to integrate gender issues in climate smart agriculture projects PDF Archived PDF from the original on 2020 10 21 World Bank Group FAO IFAD 2015 Gender in Climate Smart Agriculture The State of Food and Agriculture Climate Change Agriculture and Food Security PDF Rome Italy Food and Agriculture Organization of the United Nations 2016 pp 43 66 ISBN 978 92 5 109374 0 CLIMATE SMART AGRICULTURE Sourcebook PDF Food and agriculture organization of the United Nations 2013 Climate Smart Agriculture Methods amp Assessments Archived from the original on 2016 04 07 Sustainability Pathways FAQ https ec europa eu eip agriculture sites default files eip agri brochure climate smart agriculture 2021 en web final pdf European Green Deal climate ec europa eu 14 July 2021 Retrieved 2023 08 13 Long Thomas B Blok Vincent Coninx Ingrid 2016 01 20 Barriers to the adoption and diffusion of technological innovations for climate smart agriculture in Europe evidence from the Netherlands France Switzerland and Italy Journal of Cleaner Production 112 9 21 doi 10 1016 j jclepro 2015 06 044 ISSN 0959 6526 Morkunas Mangirdas Volkov Artiom 2023 06 01 The Progress of the Development of a Climate smart Agriculture in Europe Is there Cohesion in the European Union Environmental Management 71 6 1111 1127 doi 10 1007 s00267 022 01782 w ISSN 1432 1009 PMID 36648532 S2CID 255941160 AIM for Climate www aimforclimate org Retrieved 2023 08 13 National The 2023 05 11 Biden hails UAE partnership for advancing agricultural innovation and improving lives The National Retrieved 2023 08 13 Service SME News 2023 07 18 Insight AIM4C Revolutionising Agriculture for Climate Resilience and Food Security Sustainability Middle East News Retrieved 2023 08 13 Enabling innovation for breakthroughs in agriculture Key recommendations as the AIM for Climate Summit kicks off CGIAR Retrieved 2023 08 13 a b Costa Ciniro Wollenberg Eva Benitez Mauricio Newman Richard Gardner Nick Bellone Federico 2022 09 05 Roadmap for achieving net zero emissions in global food systems by 2050 Scientific Reports 12 1 15064 Bibcode 2022NatSR 1215064C doi 10 1038 s41598 022 18601 1 ISSN 2045 2322 PMC 9442557 PMID 36065006 The Debate Over Climate Smart Agriculture Archived from the original on 2016 04 28 Anderson Teresa 17 October 2014 Why climate smart agriculture isn t all it s cracked up to be The Guardian ISSN 0261 3077 Retrieved 2019 07 26 via www theguardian com Retrieved from https en wikipedia org w index php title Climate smart agriculture amp oldid 1183860811, wikipedia, wiki, book, books, library,

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