Sustainable Agricultural Mechanization involves the use of advanced technologies and environmentally friendly practices to enhance farming efficiency while minimizing negative impacts on ecosystems. By integrating precision farming techniques, renewable energy sources, and resource-efficient machinery, it aims to promote ecological balance and long-term agricultural resilience. This approach prioritizes the conservation of soil, water, and biodiversity, striving to meet the increasing global food demand without compromising the well-being of our planet. Sustainable Agricultural Mechanization not only optimizes resource utilization but also contributes to mitigating climate change through reduced emissions and energy-efficient practices. Embracing innovation in farming equipment, it seeks to foster a harmonious relationship between agriculture and the environment, paving the way for a more sustainable and resilient future in food production.
Title : Micromammal diversity and health in agricultural landscapes: A focus on body condition
Linas Balciauskas, Nature Research Centre, Lithuania
Title : Suitaiology: Technical goals and general concept designing for applications in mountain areas
Dachang Zhang, National Research Center for Geoanalysis and Water & Eco Crisis Foundation, United States
Title : Autonomous climate resilient farming: How AIIoT and renewable energy integration enable net zero aquaponics at scale
Kelly Ochuko EGODE, Omfeonix Agritech Ltd, United Kingdom
Title : The use of spectral measurements in experiments and agricultural production
Tytus Berbec, Institute of Soil Science and Plant Cultivation - State Research Institute, Poland
Title : Environmental Health Impact Assessment (EHIA) process for agricultural and horticultural processes - Case study as ginning of Indian seed-cotton (or kapas)
Vijayan Gurumurthy Iyer, Techno-Economic-Environmental Study and Check Consultancy Services, India
Title : Beyond high-tech: Finding the right solutions for sustainable vertical farming in Singapore
Chow Kheong Keat Gregory, Ngee Ann Polytechnic, Singapore