Call for Abstract

Global Summit on Plant Science , will be organized around the theme “Frontiers in Plant Science”

Plant Science 2015 is comprised of 13 tracks and 104 sessions designed to offer comprehensive sessions that address current issues in Plant Science 2015.

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.

The Study of plant functioning, growth, metabolism and reproduction in living plants and also concerned with the plant morphology and some basic process such as photosynthesis, respiration, plant nutrition, plant hormone functions, tropisms, nastic movements, photo -morphogenesis, environmental stress physiology (plant diseases), seed germination, dormancy and stomata function and transpiration, both parts of plant water relations. Plant biochemistry is related to molecular biology such as macromolecules and plant metabolisms, Biomolecules, carbohydrates, proteins, lipids.
  • Track 1-1Plant hormones
  • Track 1-2Arabidopsis thaliana
  • Track 1-3Plant nutrition
  • Track 1-4Stress Physiology of Plant Science
  • Track 1-5Plant diseases
  • Track 1-6Photoperiodism
  • Track 1-7Environmental physiology
  • Track 1-8Photomorphogenesis
  • Track 1-9Biotic and Abiotic stress in plants
  • Track 1-10Plant Signaling Pathways
Plant tissue culture is the growth of plant cells outside an intact plant. It depends on maintaining plant cells in aseptic conditions on a suitable nutrient medium. The culture can be sustained as a mass of undifferentiated cells for an extended period of time, or regenerated into whole plants. The different techniques used in plant tissue culture. Plant tissue culture is widely used to produce clones of a plant in a method known as micro-propagation. Plant Biotechnology is the technology which is used for getting new product with high yield and at faster ways. Plant Bio technology is emerging in the field of medicine interfacing biotechnology and bioinformatics; the molecular characterization of medicinal plants; molecular farming; and leads from chemistry, nanotechnology, pharmacology, agriculture, Biomass and biofuels as well.
  • Track 2-1Micropropagation in Plants
  • Track 2-2Bioprocessing and metabolic engineering of medicinal plants
  • Track 2-3Biofuel and Byproduct
  • Track 2-4Biomass
  • Track 2-5Blue Plant Botechnology
  • Track 2-6Recent advances in Plant Biotechnology
  • Track 2-7Green and White Plant Biotechnology
  • Track 2-8Plant Biopolymers and Bioinformatics
  • Track 2-9 Modern Plant Tissue Culture Techniques
  • Track 2-10Prospects for biopolymer production in plants.

Agricultural biology deals with the advances in genetics, physiology, biochemistry, biophysics, and molecular biology. Agriculture concerns techniques, including the application of agronomic research. Agricultural biotechnology is a specific area of agricultural science involving the use of scientific tools and techniques, including genetic engineering, molecular markers, molecular diagnostics, vaccines, and tissue culture, to modify living organisms: plants, animals, and microorganisms.

  • Track 3-1Agricultural Biotechnology
  • Track 3-2Agricultural Economics and Agribusiness Management Experts Meeting
  • Track 3-3 Modeling tools in Agriculture
  • Track 3-4Crop Physiology and crop protection
  • Track 3-5Viticulture Experts Meeting
  • Track 3-6Turfgrass grass seed management
  • Track 3-7Application of solar energy to optimize crop productivity
  • Track 3-8Agricultural engineering and Agronomy
  • Track 3-9Nanotechnology in agriculture
  • Track 3-10Agricultural and Food Market Research
Plant pathology is the scientific study of diseases in plants caused by pathogens and environmental conditions. Organisms that cause infectious disease include fungi, bacteria, viruses, viroids, virus-like organisms, phytoplasma, protozoa, nematodes and parasitic plants. A plant considered undesirable, unattractive, or troublesome, especially one that grows where it is not wanted and often grows or spreads fast or takes the place of desired plants. It is an aquatic plant or alga, especially seaweed.
  • Track 4-1Endosymbiosis
  • Track 4-2Microbial Interactions
  • Track 4-3Biological Interactions
  • Track 4-4Phytoplasma
  • Track 4-5Mutualism
  • Track 4-6Nematodes
  • Track 4-7Plant Diseases Epidemology
  • Track 4-8Fungal-Plant Interactions
  • Track 4-9Molecular and genetic basis of plant-insect interaction.
Many of the herbs and spices used by humans to season food also yield useful medicinal compounds. All plants produce chemical compounds as part of their normal metabolic activities such as phytochemistry. The use of herbs to treat disease is almost universal. Many herbs have shown positive results in-vitro while studies on some herbal treatments have found positive results.
  • Track 5-1Aromatic Plants
  • Track 5-2Modern Study of Plant Medicines
  • Track 5-3Extinction of medicinal plant species
  • Track 5-4Phytochemistry Experts Meeting
  • Track 5-5Plant derived pharmaceuticals by molecular farming
  • Track 5-6Natural products chemistry and plant medicine
  • Track 5-7Herbal medicine
  • Track 5-8Drug discovery from natural sources
Plant morphology deals with both the vegetative structures of plants, as well as the reproductive structures. It includes plant development, floral morphology pollination and fertilization. Plant morphology provides an overview of the science of studying the external form of plants. Plant metabolism includes the complex of physical and chemical events of photosynthesis, respiration, and the synthesis of organic compounds. Plant respiration is biochemical process in plants whereby specific substrates are oxidized with a subsequent release of carbon dioxide, CO2.
  • Track 6-1Vegetative propagation
  • Track 6-2Biological interactions
  • Track 6-3Plant Development
  • Track 6-4Photosynthesis 
  • Track 6-5Phytochemicals
  • Track 6-6Plant Respiration
The study of internal structure of plants, mainly study at the cellular level such as Cell cycle and cell division and tissue system includes any plant organs (roots, stems, leaves) are composed of the same tissue types. Flowering plants are divided into two groups: monocots and dicots. Anatomy of plant root, stem and leaf. Generally plant embryology explains the basic laws of the origin and development of generative and embryological structures (sporogenesis, gametogenesis).The study of sexual reproduction in higher plants, especially flowering plants mainly through micro and macro-gametogenesis, double fertilization, embryogeny, endospermatogenesis, polyembryony is of great significance for working out problems of evolution. Seed Development and structure of seed in monocotyledons and cotyledons, seed dormancy.
  • Track 7-1Plant Cell Cycle and Cell Division
  • Track 7-2Wood Anatomy
  • Track 7-3 Stem and Root Anatomy
  • Track 7-4Wood and Stomatal Anatomy
  • Track 7-5Primary and Secondary Growth
  • Track 7-6Plant biosystematics
  • Track 7-7Pollination and fertilization
  • Track 7-8Endosperm and Embryo
  • Track 7-9Seed
Plant breeding is the techniques which are used for molecular biology to select, or in the case of genetic modification, to insert desirable traits into plants. Molecular breeding such as marker assisted selection and doubled haploids are highly useful techniques. There is possibility that through plant breeding can also utilized by organic cultivation.
  • Track 8-1Modern Plant Breeding Techniques
  • Track 8-2Transgenic plants.
  • Track 8-3Green Revolution
  • Track 8-4Global food security through plant breeding
  • Track 8-5Plant breeding in organic agriculture
  • Track 8-6Plant Breeding and Genetics
  • Track 8-7Expermental Plant science
  • Track 8-8Advances in Plant Science research
  • Track 8-9Moleular Plant Science
Plant ecology is a study of the distribution and abundance of plants, the effects of environmental factors upon the abundance of plants, and the interactions among and between plants and other organisms. Plant ecology can also be divided by levels of organization including plant population ecology, community ecology, ecosystem ecology, landscape ecology and biosphere ecology. Plants are believed to have evolved from green algae called charophyceans. The kingdom Plantae contains embryophytes (plants with embryos).
  • Track 9-1Earth and Environmental Science
  • Track 9-2Biological interactions
  • Track 9-3Phytogeography and Species distribution
  • Track 9-4Herbivory and Plant defense against herbivory
  • Track 9-5Plant Integrative Biology
  • Track 9-6Herbivory and Plant defense against herbivory
The plants require water and minerals come from the soil, while carbon dioxide comes from the air. Macronutrients and Micronutrients are the essential elements required by plants. Soil quality is a major determinant of plant distribution and growth. Nitrogen is often the mineral that has the greatest effect on plant growth. Plants require nitrogen as a component of proteins, nucleic acids, chlorophyll. Biological nitrogen fixation (BNF) occurs when atmospheric nitrogen is converted to ammonia by an enzyme called nitrogenase. Soil science is the study of soil as a natural resource on the surface of the Earth including soil formation, classification and mapping and soil erosion.
  • Track 10-1Plant Nutrition and Soil Science
  • Track 10-2Nitrogen Fixation
  • Track 10-3soil management
  • Track 10-4Organic Fertilizers and Chemical Fertilizers Experts Meeting
  • Track 10-5Soil Fertility Experts Meeting
  • Track 10-6Soil Erosion Experts Meeting
  • Track 10-7Atmospheric Sciences
Plant genetics play a key role in the modern-day theories of heredity. There are various modern techniques to develop genetically modify plants, genetically engineered crops. Epigenetics is the interchanging between the heredity and the environment through molecular mechanisms (DNA methylation, gene silencing, fluorescent in situ hybridization.
  • Track 11-1Modern ways to Genetically modify plants
  • Track 11-2Forest Genomics
  • Track 11-3Genetically engineered crops
  • Track 11-4Plant Synthetic biology
  • Track 11-5Recearch in Genetically engineered plants
  • Track 11-6Polyploidy and crop plants
  • Track 11-7Tree Cytogenetics
Horticulture deals with the art, science, technology, and business of plant cultivation. It includes the cultivation of medicinal plant, fruits, vegetables, nuts, seeds, herbs, sprouts, mushrooms, algae, flowers, seaweeds and non-food crops such as grass and ornamental trees and plants organic cultivation. It also includes plant conservation, landscape restoration, landscape and garden design, construction, and maintenance, and arboriculture.
  • Track 12-1Advanced Horticultural technology
  • Track 12-2Organic Farming
  • Track 12-3Organic Agri Products Experts Meeting
  • Track 12-4Crop rotation
  • Track 12-5Weed Plants Experts Meeting
  • Track 12-6Role in mass extinctions
  • Track 12-7 Population biology of grasses.
  • Track 12-8Ornamental plants Experts Meeting
  • Track 12-9Ecohydrology
Humankind has affected our planet in many ways. In the past few centuries the changes in society and the "Biodiversity" is the full complexity and variety of life, at all scales, from genetic diversity, up to species and even ecosystem diversity. So, we use the term "biodiversity conservation" to refer to attempts to conserve and any parts of this natural diversity. Plant diversity is a major plant of total biodiversity - just think of the richness of tropical rain forests - it forms the basis of all food webs, and underpins the functioning of all ecosystems. So, plant conservation is an essential component of efforts for biodiversity conservation. As plants are at risk of extinction, in all parts of the world, their conservation is a priority. Plants are relevant and vital to all of us and we should all be aware that plants across the world are endangered with many facing extinction, and support efforts that tackle this problem. Plant diversity is especially important because it underpins the functioning of all ecosystems, as well as providing us with many direct benefits.
  • Track 13-1Importance of plant diversity 
  • Track 13-2Climate change on plant biodiversity
  • Track 13-3Biodiversity Conservation
  • Track 13-4Invasive plant science and management