About

Jul 04-05, 2024    Dubai, UAE
International Conference on

Plant science and Plant Biology

About Longdom Conferences:

Longdom Conferences hosts 200+ leading international conferences and virtual events annually. It is instrumental in bringing together experts and learners from all over the globe for mutual growth and effective research-oriented discussions. As per the present market demand and growth in the field of bioenergy, Longdom Meetings is hosting its “International Conference on Plant Science and Plant Biology”. This is scheduled for July 04-05, 2024 in Dubai, UAE. The Plant Biology 2024 extends immense pleasure in inviting you to join us at this conference which will be focusing on the theme “Adapting to Change: Plants in a Dynamic Environment”. We aim to engage, empower, evolve, and explore knowledge among attendees from all levels of scientific research on bioenergy and its related fields. This Plant Biology 2024 will be focussing on the core knowledge and major advances in the rapidly emerging fields by attracting eminent scholars, experts, and professionals globally.

Why join LONGDOM Conferences?

Understand the current state of research | Meet international colleagues and experts | Visit the exhibition of leading-edge technology | Engage with editors of the top journals in your field | Global networking and certification | Brand launching and many more to explore

Who will be the participants?

Academic Deans and Directors | Professors and project leads | Postdocs and research scholars | Young scientists and students | CEOs/ CFOs/ Chairs/ Vice-Chairs | Marketing/ business and development teams | Experts who are keen-sighted for collaboration | Product designers and resolution workers | Business sales & services professionals | Associations and society members | Funding organizations & fundraisers

Botany: "Botany" is the scientific study of plants, including their physiology, structure, genetics, ecology, distribution, classification, and economic importance.
Here are some key aspects and subfields of botany:

  • Plant Anatomy
  • Plant Morphology
  • Plant Physiology
  • Plant Taxonomy
  • Plant Ecology
  • Plant Genetics

Botany plays a crucial role in understanding plant life, contributing to fields such as agriculture, medicine, environmental science, and more. It's a diverse and interdisciplinary science that continues to evolve with advancements in technology and research methodologies.

Related TopicsDevelopment | Genetics | Turfgrass Science | Biotic interactions | Cell Biology | Comparative plant genomics Gene targeting | Physiology | Plant breeding | ornamental plant production |  Pest management | Plant science education | Fiber |  plant diversity

Plant physiology: Plant physiology is a branch of botany that focuses on the study of how plants function. It delves into the various processes, functions, and mechanisms that occur within plant cells, tissues, and organs.
Here are some key aspects of plant physiology:

  • Photosynthesis
  • Transpiration
  • Respiration
  • Nutrient Uptake
  • Transport of Water and Nutrients

Related TopicsDevelopment | Genetics | Turfgrass Science | Biotic interactions | Cell Biology | Comparative plant genomics Gene targeting | Physiology | Plant breeding | Ornamental plant production |  Pest management | Plant science education | Fiber |  plant diversity
Plant morphology: Plant morphology is the branch of botany that focuses on the study of the form and structure of plants. It involves the examination of various plant parts, such as roots, stems, leaves, flowers, and fruits, as well as their organization and arrangement.

Here are key aspects of plant morphology:

  • Root Morphology
  • Stem Morphology
  • Leaf Morphology
  • Floral Morphology
  • Plant Architecture
  • Secondary Growth

Related TopicsDevelopment | Genetics | Turfgrass Science | Biotic interactions | Cell Biology | Comparative plant genomics Gene targeting | Physiology | Plant breeding | ornamental plant production |  Pest management | Plant science education | Fiber |  plant diversity
Plant genetics: Plant genetics is the branch of genetics that focuses on the study of genes, heredity, and variation in plants. It plays a crucial role in understanding the genetic makeup of plants, how traits are inherited, and how genetic information is transmitted from one generation to the next. Here are key aspects of plant genetics:

  • Mendelian Genetics in Plants
  • Genetic Variation
  • Quantitative Genetics
  • Genetic Mapping
  • Genome Structure
  • Genetic Engineering

Related TopicsDevelopment | Genetics | Turfgrass Science | Biotic interactions | Cell Biology | Comparative plant genomics Gene targeting | Physiology | Plant breeding | ornamental plant production |  Pest management | Plant science education | Fiber |  plant diversity
Plant growth regulators (PGRs): Plant growth regulators (PGRs), also known as plant hormones or phytohormones, are naturally occurring or synthetic substances that regulate various aspects of plant growth and development. These chemicals play a crucial role in coordinating and controlling physiological processes within plants.

There are five main classes of plant hormones:

  • Auxins
  • Gibberellins (GAs)
  • Cytokinins
  • Abscisic Acid (ABA)
  • Ethylene

Related TopicsDevelopment | Genetics | Turfgrass Science | Biotic interactions | Cell Biology | Comparative plant genomics Gene targeting | Physiology | Plant breeding | ornamental plant production |  Pest management | Plant science education | Fiber |  plant diversity
Plant biotechnology: Plant biotechnology is a field of science that involves the application of biological techniques and methods to improve plants for various purposes. It encompasses a range of technologies aimed at understanding and manipulating the genetic and molecular processes within plants.

Here are key aspects of plant biotechnology:

  • Genetic Engineering
  • Transgenic Plants
  • Genome Editing
  • Plant Tissue Culture
  • Marker-Assisted Breeding
  • Plant Transformation

Related TopicsDevelopment | Genetics | Turfgrass Science | Biotic interactions | Cell Biology | Comparative plant genomics Gene targeting | Physiology | Plant breeding | ornamental plant production |  Pest management | Plant science education | Fiber |  plant diversity
Plant hormones: Plant hormones, also known as phytohormones, are chemical messengers that regulate various physiological processes in plants. These hormones play a crucial role in plant growth, development, and responses to environmental stimuli. There are several types of plant hormones, each with specific functions.

Here are some of the major plant hormones:

  • Auxins
  • Gibberellins (GAs)
  • Cytokinins
  • Abscisic Acid (ABA)
  • Ethylene
  • Brassinosteroids
  • Jasmonic Acid (JA)
  • Salicylic Acid (SA)

Related TopicsDevelopment | Genetics | Turfgrass Science | Biotic interactions | Cell Biology | Comparative plant genomics Gene targeting | Physiology | Plant breeding | ornamental plant production |  Pest management | Plant science education | Fiber |  plant diversity
Plant reproduction: Plant reproduction involves the processes by which plants generate offspring, ensuring the continuation of their species. There are two main types of plant reproduction: sexual reproduction and asexual reproduction.

1. Sexual Reproduction
Pollination
Fertilization
Seed Formation
Seed Dispersal
Germination
2.Asexual Reproduction
Vegetative Propagation
Bulbs
Cuttings
Grafting

Related TopicsDevelopment | Genetics | Turfgrass Science | Biotic interactions | Cell Biology | Comparative plant genomics Gene targeting | Physiology | Plant breeding | ornamental plant production |  Pest management | Plant science education | Fiber |  plant diversity
Plant nutrition: Plant nutrition involves the acquisition, assimilation, and utilization of essential elements and compounds necessary for the growth and development of plants. Plants require various nutrients to carry out metabolic processes, build structures, and complete their life cycle. These nutrients can be classified into two main categories: macronutrients and micronutrients.

1. Macronutrients

Nitrogen (N)
Phosphorus (P)
Potassium (K)
Calcium (Ca)
Magnesium (Mg)
Sulfur (S)

2.Micronutrients

Iron (Fe)
Manganese (Mn)
Zinc (Zn)
Copper (Cu)
Molybdenum (Mo)
Boron (B)

Related TopicsDevelopment | Genetics | Turfgrass Science | Biotic interactions | Cell Biology | Comparative plant genomics Gene targeting | Physiology | Plant breeding | ornamental plant production |  Pest management | Plant science education | Fiber |  plant diversity
Plant genetics and genomics: Plant genetics and genomics are branches of plant science that focus on understanding the genetic makeup of plants, the inheritance of traits, and the molecular mechanisms that govern plant growth, development, and responses to the environment.

Here are key aspects of plant genetics and genomics:

  • Genetic Inheritance
  • Molecular Genetics
  • Genetic Mapping
  • Genomic Sequencing
  • Functional Genomics
  • Genetic Engineering and Biotechnology

Related TopicsDevelopment | Genetics | Turfgrass Science | Biotic interactions | Cell Biology | Comparative plant genomics Gene targeting | Physiology | Plant breeding | ornamental plant production |  Pest management | Plant science education | Fiber |  plant diversity
Plant biochemistry: Plant biochemistry is a branch of plant science that focuses on the study of the chemical processes and substances that occur within plants. It involves the investigation of the molecular mechanisms underlying various physiological functions, growth, development, and responses to environmental stimuli.

Here are key aspects of plant biochemistry:

  • Photosynthesis
  • Carbohydrate Metabolism
  • Lipid Metabolism
  • Protein Metabolism
  • Amino Acid Metabolism
  • Secondary Metabolism
  • Enzymes and Enzyme Regulation

Related TopicsDevelopment | Genetics | Turfgrass Science | Biotic interactions | Cell Biology | Comparative plant genomics Gene targeting | Physiology | Plant breeding | ornamental plant production |  Pest management | Plant science education | Fiber |  plant diversity
Seed development: Seed development is a crucial phase in the life cycle of flowering plants (angiosperms). It involves the formation and maturation of seeds, which are structures containing the embryo, stored nutrients, and a protective seed coat. Seed development begins after fertilization when a male gamete (sperm cell) fuses with a female gamete (egg cell) to form a zygote.

Here are the key stages and processes in seed development:

  • Double Fertilization
  • Embryogenesis
  • Endosperm Development
  • Seed Coat Formation
  • Maturation
  • Germination

Related TopicsDevelopment | Genetics | Turfgrass Science | Biotic interactions | Cell Biology | Comparative plant genomics Gene targeting | Physiology | Plant breeding | ornamental plant production |  Pest management | Plant science education | Fiber |  plant diversity
Plant microbiome: The plant microbiome refers to the diverse community of microorganisms that live in and around plant tissues, influencing plant health, growth, and development. These microorganisms include bacteria, fungi, archaea, viruses, and other microbes. The plant microbiome is an essential component of the plant's ecological niche, playing crucial roles in nutrient cycling, disease resistance, and overall plant fitness.

Key aspects of the plant microbiome include:

  • Rhizosphere Microbiome
  • Endophytic Microbes
  • Mycorrhizal Associations
  • Phyllosphere Microbiome
  • Seed Microbiome
  • Plant-Microbe Interactions
  • Microbial Diversity
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