Call for Abstract
Scientific Program
4th Global Summit on Agriculture, Food Science and Technology, will be organized around the theme “Theme : Sustainable Agriculture Technology to Eliminate Global Food Shortage”
Agriculture Technology 2021 is comprised of 19 tracks and 89 sessions designed to offer comprehensive sessions that address current issues in Agriculture Technology 2021.
Submit your abstract to any of the mentioned tracks. All related abstracts are accepted.
Register now for the conference by choosing an appropriate package suitable to you.
One of the pillars of a horticulture course is soil science, without which the fabric of the students education would be ripped apart. Crop nutrition, soil fertility and soil management are all fundamental concepts in plant development that must be understood and mastered. Soil science is not study of soil. These discipline emphases on the enhancement of soil conditions for agronomic management and the preservation of natural resources.
- Track 1-1DNA sequencing
- Track 1-2Fermentation
- Track 1-3Cell based assay
- Track 1-4Nano biotechnology
- Track 1-5Chromatography
- Track 1-6PCR technology
- Track 1-7Tissue engineering and regeneration
Sustainable agriculture refers to the production of food and fibre through a system that increases the considerable productive potential of natural and biological resources in response to demand. Sustainability is based on the premise that we must satisfy current aspirations without jeopardising future generations ability to meet their own needs. Environmental health, economic productivity and social and financial fairness are the three core aims of sustainable agriculture.Sustainable agriculture is a dynamic idea and better agricultural process of on-farm revolution aimed at achieving the goal of sustainability.
- Track 2-1Conventional agriculture
- Track 2-2Plant disease control
- Track 2-3Renewable energy production and consumption
- Track 2-4Quality of Farm Managerial skills
Fish farming is another name for aquaculture. It is concerned with the growth, development and enhancement of flora and animals found in aquatic environments. It is also active in the seafood industry. Aquaculture continues to be the most important source of aquatic food in Asia and across the world. In many developing nations with a coastline, fisheries and aquaculture are at the heart of development. Production of raised fish and shellfish does increase world fish materials.
- Track 3-1Shrimp aquaculture
- Track 3-2Global aquaculture alliance
- Track 3-3Aquaculture systems
- Track 3-4Aquaculture engineering
- Track 3-5Disease and immunology
Agribusiness include agricultural input companies, post-harvest goods incorporating food processing commodities, food suppliers, market analysis, and agribusiness activities, which include bankers, brokers, advertising agencies and market intelligence organisations. Agribusiness has evolved into an essential element of society not merely as a source of revenue.
- Track 4-1Agricultural input sector
- Track 4-2Agriculture economics
- Track 4-3Market and Market analysis
- Track 4-4Market and Market analysis
- Track 4-5Profitability
- Track 4-6Processing-manufacturing sector
Agricultural engineering is a branch of engineering that teaches engineering, science and methods to help farmers improve and sustain their methods and output. Agricultural engineering combines knowledge from mechanical, civil and electrical engineering concepts with agricultural concepts. Construction of agricultural infrastructure, such as water reservoirs, warehouses, dams and other structures is covered. This discipline's goal is to increase the efficiency and long-term viability of agricultural methods.
- Track 5-1Soil Science
- Track 5-2Soil and Water Conservation Engineering
- Track 5-3Operation Research
- Track 5-4Dairy and Food Engineering
- Track 5-5Environmental Studies
Agricultural climatology is a field of study that studies how climate affects the cultural conditions of agricultural plants, animal husbandry, the incidence of harmful impacts and most importantly agricultural operational procedures in general. The outcomes of relevant investigations are referred to as "planning information" collectively. The use of yearly divisions drawn from the universal calendar for time periods is widespread in climate statistics.
- Track 6-1Natural hazards
- Track 6-2Greenhouse effect
- Track 6-3Agro-climatic zones
- Track 6-4Response of crops to climate change
Food security in a population implies that everyone has adequate food at all times to fulfil their dietary needs for a creative and active life. Food security has always been a crucial issue for human civilizations throughout history. Concerns regarding the effects of financial development/crisis and population increase on universal food security and food production have grown in recent decades. Farming and Food Security meets the needs of the global agriculture community from smallholder farmers in impoverished countries to biotechnology breakthroughs. It discusses the difficulty of universal food security and encouragesresearch toward more sustainable/traditional farming and food systems that help represent local, regional, national and nutritional needs.
- Track 7-1Food availability
- Track 7-2Food quality
- Track 7-3Food access
- Track 7-4Food utilisation
- Track 7-5Agricultural productivity
- Track 7-6Population growth
- Track 7-7Food management
Agricultural Risk Management (ARM) is a sophisticated approach to increase the flexibility of vulnerable rural people while also leveraging financing and investment. Risk management enables farmers and businesses to be more active while also improving their ability to identify plan for absorb and adjust to risks and uncertainties.
- Track 8-1Agriculture entomology
- Track 8-2Production and Price Risks
- Track 8-3Determinants of Crop Failure
- Track 8-4Natural hazards
Crop waste management entails keeping 60 percent of the soil surface covered during planting to maintain water quality. Crop residue management also enhances infiltration, aeration and tilth while protecting the soil from wind and rain erosion. It also adds organic material to the soil preserves soil moisture and enhances infiltration, aeration and tilth. Reduced soil erosion, sedimentation and pollution from dissolved sediment associated chemicals might all be advantages. Crop waste, such as wheat straw and maize stalks may be used to make cellulosic ethanol, which might help the transportation industry reach advanced biofuel aspirations and decarbonization ambitions.
- Track 9-1Livestock feed
- Track 9-2Compost making
- Track 9-3Renewable energy
- Track 9-4Bio-methanation
- Track 9-5Bio-fuel and bio-oil production
- Track 9-6Weed control practices and methods
Agricultural equipment is a term that refers to the mechanical structures and equipment that are utilised in farming and other forms of agriculture. Hand tools and power tools, as well as tractors and the myriad sorts of farm implements that they tow or control, are all examples of such equipment. Both organic and nonorganic farming require a wide range of equipment. Agricultural technology has become an integral aspect of how the world gets fed, especially with the introduction of automated agriculture.
- Track 10-1Technical Transformation in Agriculture
- Track 10-2Farm machinery
- Track 10-3Farm power units
Agricultural irrigation water management is the activity of monitoring and controlling the quantity, volume, and control of water delivery based on seasonal crop needs while taking into account soil input and water holding capacity. To achieve optimal yields, soil moisture should be controlled to avoid extensive percolation (soil physics) losses or runoff. A key factor in the effectiveness of an irrigation system is management. Irrigation necessitates vast amounts of water and in many cases substantial labour inputs. Only if water is used efficiently will the irrigator see a return on his or her irrigation instrument investments.
- Track 11-1Water reservoirs
- Track 11-2Soil-plant-water balance
- Track 11-3Irrigation scheduling
- Track 11-4Irrigation technology
Food security is intimately linked to agricultural growth. It also serves as a catalyst for general financial growth in many underdeveloped countries. The agricultural sector's prosperity has not been fairly distributed among areas and countries. The world's population is predicted to reach 9 to 10 billion people by 2050.The majority of development is predicted to take place in poor nations, where the income elasticity of food demand is still strong. By 2050 the rising population along with relatively strong wage growth might result in a demand for food and other agricultural goods that is more than 70% higher.
- Track 12-1Modern agriculture
- Track 12-2Urbanization
- Track 12-3Agricultural trade
- Track 12-4Sources of Agricultural Growth
Post-harvest technology is an inter-disciplinary "Science and Technique" that is used to agricultural products after harvest for the purpose of protecting, conserving, processing, packing, distribution, marketing and use in order to fulfil people's food and nutritional needs. To increase agricultural output avoid post-harvest losses promote nutrition and add value to goods, it must evolve in accordance with the demands of each society.
- Track 13-1Maturity assessment and prediction
- Track 13-2Product quality, safety, control
- Track 13-3Postharvest pathology
- Track 13-4Food traceability
- Track 13-5Food processing and preservation
Agricultural production systems are made up of a variety of processes and factors that interact in complex ways to impact the long-term viability of output. In reaction to fluctuations in production costs, customer requirements and growing concerns about food and nutrition, food security and environmental effect farming production systems evolve quickly. The use of agricultural production systems modelling has rapidly grown during the last decade, whereas model creation has received less attention.
- Track 14-1Sustainable agricultural production
- Track 14-2Mixed-enterprise production systems
- Track 14-3Crop cultivation systems
- Track 14-4Livestock production
Organic farming is a process that entails growing plants and raising animals in a natural environment. To preserve soil fertility and ecological balance while reducing pollution and waste, this approach employs organic resources while avoiding synthetic compounds. In other words, organic farming is a farming method that involves growing and nurturing crops without the use of synthetic based fertilizers and pesticides. Also, no genetically modified organisms are permitted.
- Track 15-1Bio fertilizers
- Track 15-2Manures
- Track 15-3Biological movement
- Track 15-4Crop rotation
- Track 15-5Vermicomposting
Agriculture in the future will require three types of innovation: technical, social and financial. Advanced agricultural technology will enable the responsible and long-term production of enough and nutritious food to meet the changing demands of a growing global population. The major study question was: Which new talents – or new applications of current technology – may have a significant influence on the agricultural and food sector
Agricultural biotechnology also known as agritech, which is a branch of agricultural science that involves the modification of living organisms such as plants, animals and microorganisms using scientific tools and techniques such as genetic engineering, molecular markers, molecular diagnostics, vaccines and tissue culture. Crop biotechnology is an area of agricultural biotechnology that has seen a lot of advancement recently. Desirable traits are transferred from one Crop species to another. These transgenic crops have desired traits like as flavour, floral colour, growth rate, harvested product size and disease and insect resistance.
- Track 17-1Herbicide
- Track 17-2Bacillus Thuringiensis
- Track 17-3Plant Breeding
- Track 17-4Genetic Engineering
- Track 17-5PCR technology
- Track 17-6Tissue engineering and regeneration
Agronomy is the science of growing and using plants for a variety of purposes, including soil, agricultural products and water management. Scientists are studying the performance of plants under a variety of ecological situations, such as climate, soil type, irrigation, fertilisation and so on, in agronomy. Crop science is the study of crops, seed production, biological crops, crop technology transpiration, field crops, and irrigation technology. It is a broad field that includes crop and animal feed breeding, genetics, production and management.
- Track 18-1Seed technology
- Track 18-2Forage crop & grass science
- Track 18-3Crop genetics and breeding
- Track 18-4Physiology and ecological research on herbs
- Track 18-5Efficient crop production
Agroforestry is the deliberate incorporation of trees and shrubs with crops and animals in order to achieve ecological, economical and social benefits. Agroforestry and social forestry are two distinct ideas. Landscaping is the process of designing, implementing and conserving the land that surrounds a property. This includes, but is not limited to architectural, gardening and outdoor design elements.
- Track 19-1Agri silvicultural
- Track 19-2Silvopastoral systems
- Track 19-3Agrosylvopastoral
- Track 19-4Roof Gardening
- Track 19-5Forest product trading