Call for Abstract

16th Annual Meeting on Environmental Toxicology and Biological Systems, will be organized around the theme “Evincing and Repairing the Imbalanced Tox-Eco System”

Global ENVITOX 2018 is comprised of keynote and speakers sessions on latest cutting edge research designed to offer comprehensive global discussions that address current issues in Global ENVITOX 2018

Submit your abstract to any of the mentioned tracks.

Register now for the conference by choosing an appropriate package suitable to you.

Environmental science is the Interdisciplinary field of science that studies the interactions of the physical, chemical, and biological components of the environment and also the relationships and effects of these components with the organisms in the environment. Most of the people come to the conclusion with an assumption that Environmental science comes only under Natural Science aspects but the thing which makes it more complex and broad is it also includes Social Sciences and humanities.

  • Track 1-1Geology
  • Track 1-2Atmospheric Science
  • Track 1-3Geosciences
  • Track 1-4Aquatic Science
  • Track 1-5Limnology
  • Track 1-6Environmental Chemistry

Ecology deals with the scientific study of interactions between the organisms and with abiotic components of the environment. It includes Distribution, diversity, biomass and the interactions of the organisms within and among  their ecosystems. Ecosystem processes primary production, pedogenesis, moment of the materials and energy with respective to the Environment

  • Track 2-1Earth science
  • Track 2-2Forestry
  • Track 2-3Agriculture, Fisheries & Food
  • Track 2-4Agroecology
  • Track 2-5Urban ecology
  • Track 2-6Wetland management
  • Track 2-7Human ecology
  • Track 2-8Ecosystems
  • Track 2-9Geography
  • Track 2-10Niche construction
  • Track 2-11Conservational Biology

Toxicology is a common science that deals with toxins and their effect and with the problems involved such as clinical, industrial, or legal problems .Toxicity experiments may be conducted in vitro by testing on isolated cells or tissues or in silico through computer simulation or in vivo by using the whole animal.The experimental tool of toxicology is testing on animals. An example of a model organism is Galleria mellonella, which can replace small mammals for studying toxicity in vivo. As of 2014, such animal testing provides information that is not available by other means about how substances function in a living organism.

  • Track 3-1Toxicokinetics
  • Track 3-2Regulatory Toxicology & Issues
  • Track 3-3Toxic Metals in the Environment
  • Track 3-4Molecular Toxicology
  • Track 3-5Ecotoxicology
  • Track 3-6Radioactive Toxicology
  • Track 3-7Analytical Toxicology
  • Track 3-8Industrial Toxicology
  • Track 3-9Environmental Health
  • Track 3-10Risk Assesment
  • Track 3-11Toxicodynamics
  • Track 3-12Environmental Toxicity Testing

Pollution control can be defined as the intermixing of contaminants into the natural resources leading to their degradation. Methods of air pollution control can be divided into two categories: the control of particulate emissions and the control of gaseous emissions. The term particulate can be defined as tiny particles of matter such as smoke, soot, and dust that are released during industrial, agricultural, or other activities. Gaseous emissions are industrial products such as sulfur dioxide, carbon monoxide, and oxides of nitrogen also released during various manufacturing operations. 

  • Track 4-1Major Pollutants
  • Track 4-2Control of Mobile-Source Emission
  • Track 4-3Toxicology of Air Pollution
  • Track 4-4Energy Conservation
  • Track 4-5Wastewater Treatment
  • Track 4-6Waste Disposal and Recycling
  • Track 4-7Hazardous Waste
  • Track 4-8Soil Toxicology
  • Track 4-9Chemical Wastes

Occupational health and safety deals with all aspects of health and safety in the workplace. It has a strong focus on primary prevention of hazards. The health of the workers has several determinants, that includes risk factors at the workplace leading to cancers, accidents, musculoskeletal diseases, respiratory diseases, hearing loss, circulatory diseases, stress related disorders and communicable diseases and others. The goals of occupational safety and health programs is to include and foster a safe and healthy environment for the workers. Occupational health deals with all aspects of health and safety in the workplace and has a strong focus on primary prevention of hazards. 

  • Track 5-1Occupational and environmental medicine
  • Track 5-2Irritants and corrosives
  • Track 5-3Acute toxicity
  • Track 5-4Carcinogenicity of substances
  • Track 5-5Occupational safety and health convention
  • Track 5-6Occupational health psychology and nursing
  • Track 5-7Occupational safety
  • Track 5-8Occupational diseases and prevention
  • Track 5-9Occupational biohazard wastes
  • Track 5-10Occupational therapy
  • Track 5-11Occupational allergies
  • Track 5-12Threshold limit values and biological exposure indices

Life Sciences encompasses several divisions of science, such as zoology, botany, microbiology, or ecology, that deal with alive organisms and their organization, life processes, and relationships to each other and their environment. Life sciences plays a prominent role in expanding opportunity for discovery, global impact, and financial support. Progress in the life sciences, including genome sequencing and high-throughput experimentation, offers an opportunity for understanding biology and medicine from a systems perspective.

  • Track 6-1Agriculture, Fisheries & Food
  • Track 6-2Palaeontology
  • Track 6-3Mycology
  • Track 6-4Forestry
  • Track 6-5Entomology
  • Track 6-6Behavioural Sciences
  • Track 6-7Bio physics
  • Track 6-8Virology
  • Track 6-9Veterinary Sciences
  • Track 6-10Bio Chemitry
  • Track 6-11Microbiology
  • Track 6-12Plant Sciences
  • Track 6-13Zoology
  • Track 6-14Parasitology

Biology is a common science that includes an aggregation with existing organisms, including their physical, chemical structures, function, development and evolution. In general, biology recognizes the cell as the basic unit of life, genes as the basic unit of heredity, and evolution as the engine that propels the creation of new species.Biology developed quickly with Anton van Leeuwenhoek's dramatic improvement of the microscope. A central organizing concept in biology is that life changes and develops through evolution, and that all life-forms known have a common origin. Genes are the primary units of inheritance in all living organisms. A gene is a basic unit of heredity and corresponds to a region of DNA that influences the form or function of an organism in specific ways.

  • Track 7-1Conservational Biology
  • Track 7-2Forensic biology
  • Track 7-3Molecular biosciences
  • Track 7-4Environmental biology
  • Track 7-5Molecular Biology
  • Track 7-6Cell Biology
  • Track 7-7Veterinary Science
  • Track 7-8Computational biology
  • Track 7-9Systems Biology
  • Track 7-10Marine Biology
  • Track 7-11Cryology
  • Track 7-12Genetics & Heredity
  • Track 7-13Genomics and Proteomics
  • Track 7-14A-Level Biology
  • Track 7-15Developmental Biology
  • Track 7-16IB Biology

Biomedical sciences are a set of applied sciences applying either by natural science or formal science or both, to knowledge, interventions, or technology that are of use in healthcare or public health. Enhancements in healthcare continue to be determined by dramatic advances in the basic biosciences. Biomedical science is poised to make valuable contributions to the fields of both biology and medicine and many moves on to the findings in the field of biology that have important effects in the medical world.

  • Track 8-1Anatomy
  • Track 8-2Human Physiology
  • Track 8-3Neurology
  • Track 8-4Pharmacology
  • Track 8-5Immunology
  • Track 8-6Biopsychology
  • Track 8-7Pathology
  • Track 8-8Research methods and statistics

Biotechnology is the technical application of the living organisms, systems and their biological processes in order to alter or modify their products for a specific use. Based on the equipment used and the method of application biotechnology relates with the fields like bioengineering, biomedical engineering, bio manufacturing, molecular engineering, etc. Earlier it was farmers, who applied the field of biotechnology practically in agriculture, food production, and medicine. Later it got sophisticated with good scope and advanced applications which included a wide range of new and diverse sciences such as genomics, recombinant gene techniques, applied immunology, and development of pharmaceutical therapies and diagnostic tests

  • Track 9-1Bioprocess engineering
  • Track 9-2Agricultural Biotechnology and Biochemistry
  • Track 9-3Bioprocess & Biochemical Engineering
  • Track 9-4Bio Informatics
  • Track 9-5Cell and Tissue culture
  • Track 9-6Embryology
  • Track 9-7Genetic Engineering
  • Track 9-8Animal cell culture
  • Track 9-9Chemical engineering
  • Track 9-10Hybridization

Toxicity testing of new compounds is essential for drug development process. The preclinical toxicity testing on various biological systems reveals the species-, organ- and dose- specific toxic effects of an investigational product. There are distinct types of toxicological analyses that are conducted for different purposes. They include forensic toxicological analysis, workplace drug testing, clinical analysis or hospital drug testing. A toxicity test, by extension, is designed to generate data concerning the adverse effects of a substance on human or animal health, or the environment. Most of the toxicity tests examine specific types of adverse effects, known as endpoints, such as eye irritation or cancer. Other tests are more general in nature, ranging from acute (single-exposure) studies to repeat dose (multiple-exposure) studies, in which animals are administered daily doses of a test substances.

  • Track 10-1 In vitro toxicity testing
  • Track 10-2Behavioral Tests
  • Track 10-3Forensic toxicological analysis
  • Track 10-4Phototoxicity Tests
  • Track 10-5Developmental Toxicity tests
  • Track 10-6Ocular and Shin Irritation tests
  • Track 10-7Toxicology screening
  • Track 10-8Acute Toxicity Studies
  • Track 10-9Hyper Sensitivity tests
  • Track 10-10Mutagenicity
  • Track 10-11Carcinogenicity
  • Track 10-12In vivo toxicity testing
  • Track 10-13LD50 test