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Climate-Smart Agricultural Practices for Reducing Carbon Footprints in Bangladesh

Students & Supervisors

Student Authors
S M Khaled Hasan Prince
Bachelor of Science in Computer Science & Engineering, FST
Afrina Ashraf Ahana
Bachelor of Science in Computer Network & Cyber Security, FST
Sheikh Saiman Alam
Bachelor of Science in Electrical & Electronic Engineering, FE
Md Avi
Bachelor of Science in Computer Science & Engineering, FST
Md. Tawshif Hossain
Bachelor of Science in Computer Science & Engineering, FST
Supervisors
Md. Mortuza Ahmmed
Associate Professor, Faculty, FST

Abstract

The raise of climate challenges has impact on sustainable farming each year and as a result it became significant to ensure food and environmental security of Bangladesh.. This research evaluates that CSA (Climate Smart System) performance is being practiced and to understand their role in carbon footprint reduction and food security improvement over the past three decades. Dataset between 1994 and 2023 were collected and compared among six major sustainability indicators and these are water sustainability score soil quality index, climate resilience index, biodiversity core, crop yield and food security index were analyzed to track improvements under CSA (Climate Smart System) adoption. The dataset was scrutinized to determine long term transformation in soil and water by adopting CSA productivity indicators. The observations highlight substantial progress, like increase of soil quantity by 26 points nearly and rise of biodiversity by 35 points over the past three decades, examined through vital sustainability indicators. It shows that the ecosystem is functioning much better and carbon storage is improved. Food security improved together with sustained agricultural yields of 4.45 hectares under CSA approaches. Despite water sustainability declines the trend shows that smart climate and regenerative approaches may promote environmental recovery and retain reliable agricultural productivity under climatic change and conditioned resources. Regenerative CSA enhances soil carbon storage and promotes reliable crop yields which contribute to the continuous improvement of the food security index. The study reveals that adopting climate smart and regenerative farming practices can effectively capture carbon and build resilience at the same time cut emissions at once. These approaches could turn the culture of Bangladesh into a source of both food and carbon credits.

Keywords

Climate-smart system carbon sequestration Regenerative farming Food security Climate resilience.

Publication Details

  • Type of Publication:
  • Conference Name: Gazipur Agricultural University International Conference (GAUIC 2025)
  • Date of Conference: 12/12/2025 - 12/12/2025
  • Venue: Gazipur Agricultural University, Gazipur, Bangladesh
  • Organizer: Gazipur Agricultural University
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