World Congress on Chemical, Agricultural, Biological & Environmental Sciences on January 20-22, 2027 in Pattaya, Thailand

Call for papers/Topics

Full Articles/ Reviews/ Shorts Papers/ Abstracts are welcomed in the following research fields:

1. Independent Disciplines

These represent the foundational branches of science, each possessing its own core theories, methodologies, and distinct bodies of knowledge.

Chemical Sciences

Organic Chemistry: Synthesis and structure of carbon-based compounds.

Inorganic Chemistry: Behavior and properties of organometallic compounds and minerals.

Analytical Chemistry: Quantitative and qualitative determination of chemical components.

Physical Chemistry: Chemical thermodynamics, kinetics, and molecular spectroscopy.

Biological Sciences

Cellular and Molecular Biology: DNA replication, protein synthesis, and cellular signaling mechanics.

Genetics and Genomics: Heredity, gene mapping, and evolutionary mutations.

Microbiology: Virology, bacteriology, and mycology.

Physiology: Functional mechanics of tissues, organs, and living systems.

Agricultural Sciences

Agronomy: Soil management and large-scale crop production metrics.

Horticulture: Plant propagation, breeding, and intensive cultivation of fruits, vegetables, and ornamental plants.

Animal Science: Livestock breeding, nutrition, and husbandry management.

Agricultural Engineering: Design of farming machinery, automated irrigation, and structural processing units.

Environmental Sciences

Ecology: Population dynamics, community interactions, and ecosystem structures.

Atmospheric Sciences: Meteorology, greenhouse gas dynamics, and climate modeling.

Hydrology: Movement, distribution, and quality of freshwater systems across landmasses.

Geology and Soil Science: Lithospheric processes, rock weathering, and foundational soil formation.

2. Interrelated Cross-Disciplinary Fields

These subtopics cannot exist within a single silo; they require the direct integration of two or more core domains to function.

Chemical-Biological Intersections

Biochemistry: Chemical reactions governing metabolic pathways, enzyme kinetics, and cellular respiration.

Chemical Biology: Application of synthetic chemical tools and small molecules to manipulate and study real-time biological systems.

Pharmacognosy and Medicinal Chemistry: Extraction of bioactive compounds from natural organisms and their optimization into therapeutic drugs.

Chemical-Environmental Intersections

Environmental Chemistry: Chemical fates, reactions, and transport pathways of heavy metals, synthetic polymers, and pollutants in air, soil, and water.

Green Chemistry: Molecular design focused on minimizing hazardous byproducts, optimizing atom economy, and utilizing renewable feedstocks.

Ecotoxicology: Chemical profiling of toxins and their systemic biological impact on indicator species within vulnerable ecosystems.

Biological-Agricultural Intersections

Agricultural Biotechnology: Genetic modification of crops to express traits like drought tolerance, pest resistance, and enhanced nutritional profiles.

Plant Pathology: Study of biological pathogens (fungi, bacteria, viruses) affecting crop health and the mechanisms of plant immune systems.

Soil Microbiology: Symbiotic relationships involving mycorrhizal fungi, nitrogen-fixing bacteria, and plant root networks.

Agricultural-Environmental Intersections

Agroecology: Applying ecological principles to agricultural design, optimizing biodiversity, and maximizing natural resource efficiency.

Sustainable Land Management: Strategies for mitigating soil erosion, combating desertification, and managing livestock grazing to protect natural wild borders.

Agricultural Hydrology: Management of non-point source water pollution, agricultural runoff, and the ecological impacts of widespread artificial fertilizers.

3. Quad-Centric Interrelated Global Systems

These grand challenges sit precisely at the center of all four macro-disciplines, drawing simultaneously from chemical, agricultural, biological, and environmental expertise.

Bioremediation and Environmental Biotechnology

Microbial Degradation: Engineering bacterial strain pathways to break down industrial plastic polymers and hydrocarbons.

Phytoremediation: Using deep-rooted hyperaccumulating plants to extract and stabilize toxic heavy metals from polluted industrial soils.

Precision Agriculture and Biomimetic Agrochemicals

Smart Fertilizers: Chemical formulation of micro-encapsulated polymers that release nitrogen and phosphorus based on biological soil signals and moisture levels.

Biopesticides: Developing natural pheromones, botanical extracts, and targeted fungal strains to replace broad-spectrum, persistent synthetic chemical pesticides.

Bioenergy and Biorefinery Systems

Second and Third-Generation Biofuels: Chemical pre-treatment of agricultural lignocellulosic waste and engineered algal cultures to synthesize scalable bio-ethanol and bio-diesel.

Bioplastics Production: Converting agricultural crop starches and lipid waste into biodegradable polymers via microbial fermentation.

Global Carbon Sequestration and Climate Mitigation

Enhanced Weathering and Biochar: Applying chemically optimized agricultural crop char into topsoils to increase biological carbon sinks while altering soil chemistry for optimal yield.

Synthetic Biology for Carbon Capture: Re-engineering the RuBisCO enzyme in photosynthetic organisms to dramatically elevate global atmospheric carbon fixation rates.

Name: ETRG
Website: http://etrg.org