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Ovulation and Stimulation Ovulation refers to the process by which an egg or ovum is released from the ovary, usually near the midpoint of a menstrual cycle.
Ovulation takes place in the ovary and is part of the menstrual cycle.
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Ovulation is when one or more eggs are released from the ovary and is the fertile time of your menstrual cycle .
Ovulation takes place in the ovary and is part of the menstrual cycle.
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Ovulation, when one or more eggs is released from the ovary, is considered the fertile part of your menstrual cycle .
Ovulation takes place in the ovary and is part of the menstrual cycle.
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Polycystic ovarian syndrome is a common hormonal disorder that is poorly understood and clinically characterized by irregular menstrual cycles, lack of regular ovulation, abnormal facial hair growth, infertility, obesity and polycystic ovaries (enlarged, cystic ovaries).
Ovulation takes place in the ovary and is part of the menstrual cycle.
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Pregnancy is most likely to occur at or around the time the egg is released from the ovary (ovulation), about midway in the woman's menstrual cycle .
Ovulation takes place in the ovary and is part of the menstrual cycle.
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THE HORMONES OF THE MENSTRUAL CYCLE The ovarian cycle is part of an integrated system which includes the hypothalamus, the pituitary, the ovary and the uterus ( fig.
Ovulation takes place in the ovary and is part of the menstrual cycle.
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The male reproductive parts are placed above the superior ovary(containing nine ovules).
Ovulation takes place in the ovary and is part of the menstrual cycle.
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The menstrual cycle includes events that take place in the ovary, such as ovulation.
Ovulation takes place in the ovary and is part of the menstrual cycle.
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The menstrual cycle is the cycle of natural changes that occurs in the uterus and ovary as an essential part of making sexual reproduction possible.
Ovulation takes place in the ovary and is part of the menstrual cycle.
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The ovary and menstrual cycle;
Ovulation takes place in the ovary and is part of the menstrual cycle.
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changes of uterus and ovary during menstrual cycle and pregnancy;
Ovulation takes place in the ovary and is part of the menstrual cycle.
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It is unlawful for any person, firm or corporation to haul or carry over the paved streets or sidewalks within the City, and rock, sand, gravel, or other substances in wagons, trucks or containers, that will permit such substance to spill or drop upon the streets or sidewalks.
Particles of sand and rock are carried by longshore drift.
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Longshore drift carries particles of sand and rock down a coastline.
Particles of sand and rock are carried by longshore drift.
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rock, sand, silt, and organic particles.
Particles of sand and rock are carried by longshore drift.
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All ants rely on olfaction for their communication (pheromones), and many species mainly use odor cues for orientation.
Pheromones enable communication, which is vital for organisms like ants that live in a large community.
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Ants produce several types of pheromones for communication, including sex attractants, alarms and trail-markers.
Pheromones enable communication, which is vital for organisms like ants that live in a large community.
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Communication is vital for organizations like CIRAS with both Central and Field operation.
Pheromones enable communication, which is vital for organisms like ants that live in a large community.
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Consulting services are provided to international development organisations and NGO's to set up radio stations to provide a communications infrastructure that enables vital news and information to be made available to all people living in communities.
Pheromones enable communication, which is vital for organisms like ants that live in a large community.
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Evolution of social behavior, pheromones and communication, organization and division of labor, social parasitism.
Pheromones enable communication, which is vital for organisms like ants that live in a large community.
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Improving communication within the organization and with the community at large.
Pheromones enable communication, which is vital for organisms like ants that live in a large community.
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In such a large organization, effective and quick communication is vitally important.
Pheromones enable communication, which is vital for organisms like ants that live in a large community.
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It has been well established that an ant colony uses chemical (pheromone) traces for communication between its members.
Pheromones enable communication, which is vital for organisms like ants that live in a large community.
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Leaf-cutter ants ( Atta cephalotes ) Defense, agriculture and chemical communication are all vital elements in the lives of leaf-cutter ants.
Pheromones enable communication, which is vital for organisms like ants that live in a large community.
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Like many communication technologies before it, the Internet enables rural communities to receive information and assistance from outside development organizations.
Pheromones enable communication, which is vital for organisms like ants that live in a large community.
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Management should be informed and trained by the organization to enable them to perform the communications, evaluations, and counseling tasks that are vital to the effectiveness of the probationary period.
Pheromones enable communication, which is vital for organisms like ants that live in a large community.
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No real ant communication, no new pheromones, and no genuine autonomous living processes emerge from the computational setup.
Pheromones enable communication, which is vital for organisms like ants that live in a large community.
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Pheromones are the best-known form of communication in ants.
Pheromones enable communication, which is vital for organisms like ants that live in a large community.
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This enables large-scale communication to target audiences within the community.
Pheromones enable communication, which is vital for organisms like ants that live in a large community.
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Alkylation of Phosphate Group of Nucleotide via Tributylstannyl Phosphate Derivatives, Chem.
Phosphate groups are found within phospholipids and nucleotides.
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Nucleotides are composed of a phosphate group, a sugar (ribose in RNA, and deoxyribose in DNA) and a base which marks the specific difference among nucleotides.
Phosphate groups are found within phospholipids and nucleotides.
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9. Explain how chemoautotrophs differ from photosynthetic autotrophs.
Photoautotrophs and chemoautotrophs are two basic types of autotrophs.
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Autotroph can be phototroph s or lithotroph s (chemoautotrophs).
Photoautotrophs and chemoautotrophs are two basic types of autotrophs.
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Autotrophs can be photoautotrophs or chemoautotrophs.
Photoautotrophs and chemoautotrophs are two basic types of autotrophs.
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Autotrophs may be photoautotrophs or chemoautotrophs .
Photoautotrophs and chemoautotrophs are two basic types of autotrophs.
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Autotrophs obtain energy and nutrients by harnessing sunlight through photosynthesis (photoautotrophs) or, more rarely, obtain chemical energy through oxidation (chemoautotrophs) to make organic substances from inorganic ones.
Photoautotrophs and chemoautotrophs are two basic types of autotrophs.
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Autotrophs use the energy of either light (photoautotrophs) or (oxidation) of inorganic compounds (chemoautotrophs) to convert inorganic compounds (carbon dioxide and water) to organic compounds (glucose).
Photoautotrophs and chemoautotrophs are two basic types of autotrophs.
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MICROBIOLOGY -- metabolic pathways, pure culture techniques and limitations, aerobes, anaerobes, autotrophs, heterotrophs, chemoautotrophs, Bergey's classification.
Photoautotrophs and chemoautotrophs are two basic types of autotrophs.
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Some types of bacteria are autotrophs.
Photoautotrophs and chemoautotrophs are two basic types of autotrophs.
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There are two types of plankton- phytoplankton (plants and autotrophs) and zooplankton (animals).
Photoautotrophs and chemoautotrophs are two basic types of autotrophs.
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This is a type of autotroph.
Photoautotrophs and chemoautotrophs are two basic types of autotrophs.
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As we already know, the process by which green plants and certain other organisms use the energy of light to convert carbon dioxide and water into the simple sugar glucose is called photosynthesis.
Photosynthesis converts carbon dioxide and water into glucose.
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Chlorophyll is a green pigment in plants that enables photosynthesis, the conversion of carbon dioxide and water to glucose and oxygen using sunlight.
Photosynthesis converts carbon dioxide and water into glucose.
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During photosynthesis the plants use the energy of the sunlight, water, and carbon dioxide, to create glucose (sugar).
Photosynthesis converts carbon dioxide and water into glucose.
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During photosynthesis, sunlight changes water and carbon dioxide into glucose and oxygen.
Photosynthesis converts carbon dioxide and water into glucose.
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During the process of photosynthesis, carbon dioxide plus water in the presence of sunlight, enzymes and chlorophyll produce glucose and oxygen as waste product.
Photosynthesis converts carbon dioxide and water into glucose.
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For instance a green plant uses light energy to convert water and carbon dioxide into glucose by photosynthesis.
Photosynthesis converts carbon dioxide and water into glucose.
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Glucose is made during photosynthesis from water and carbon dioxide, using energy from sunlight.
Photosynthesis converts carbon dioxide and water into glucose.
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In photosynthesis, autotrophs use energy from the sun to convert water from the soil and carbon dioxide from the air into a nutrient called glucose .
Photosynthesis converts carbon dioxide and water into glucose.
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In the process of photosynthesis, carbon dioxide and water becomes glucose and oxygen, in the presence of sunlight and chlorophyll.
Photosynthesis converts carbon dioxide and water into glucose.
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It functions to initiate photosynthesis, a complex biochemical pathway in which solar energy is used to convert water and carbon dioxide to glucose and other carbohydrates.
Photosynthesis converts carbon dioxide and water into glucose.
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Most primary production occurs through photosynthesis, whereby green plants convert solar energy, carbon dioxide, and water to glucose and eventually to plant tissue.
Photosynthesis converts carbon dioxide and water into glucose.
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Photosynthesis (producing glucose and oxygen from carbon dioxide, water and sun light).
Photosynthesis converts carbon dioxide and water into glucose.
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Photosynthesis Photosynthesis is the chemical process by which sunlight, carbon dioxide, water, and other inorganic materials are combined and converted into glucose, a sugar that is used for energy.
Photosynthesis converts carbon dioxide and water into glucose.
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Photosynthesis consists of carbon dioxide and water reacting in the presence of energy from sunlight, which produces glucose and oxygen.
Photosynthesis converts carbon dioxide and water into glucose.
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Photosynthesis converts carbon from carbon dioxide to glucose with reducing equivalents supplied from water and energy supplied from light.
Photosynthesis converts carbon dioxide and water into glucose.
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Photosynthesis is an anabolic process by which plants synthesize glucose from the raw products carbon dioxide and water.
Photosynthesis converts carbon dioxide and water into glucose.
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Photosynthesis produces oxygen when carbon dioxide and water are chemically converted into glucose with the help of sunlight.
Photosynthesis converts carbon dioxide and water into glucose.
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Photosynthesis uses energy from light to convert water and carbon dioxide molecules into glucose (sugar molecule) and oxygen (Figure 2).
Photosynthesis converts carbon dioxide and water into glucose.
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Photosynthesis uses energy from the sun, water, and Carbon Dioxide to make food, in the form of a sugar called glucose.
Photosynthesis converts carbon dioxide and water into glucose.
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Photosynthesis, process by which green plants and certain other organisms use the energy of light to convert carbon dioxide and water into the simple sugar glucose.
Photosynthesis converts carbon dioxide and water into glucose.
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Plants only need sunlight, water, and carbon dioxide to make its own food called glucose, this process is known as photosynthesis.
Photosynthesis converts carbon dioxide and water into glucose.
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Plants take in carbon dioxide from the air and, through photosynthesis, convert it to glucose, while releasing oxygen as a waste product.
Photosynthesis converts carbon dioxide and water into glucose.
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Plants use photosynthesis to take carbon dioxide and water and make glucose and release oxygen.
Photosynthesis converts carbon dioxide and water into glucose.
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Sunlight is captured by green plants during the process of photosynthesis to produce glucose, a carbohydrate from water and carbon dioxide.
Photosynthesis converts carbon dioxide and water into glucose.
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The definition of photosynthesis is when plants process water and carbon dioxide to produce glucose by the process of photosynthesis.
Photosynthesis converts carbon dioxide and water into glucose.
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The primary function of the light reactions of photosynthesis is A) to produce energy rich glucose from carbon dioxide and water.
Photosynthesis converts carbon dioxide and water into glucose.
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The process of photosynthesis requires carbon dioxide, water and sunlight, which produces, oxygen, water and glucose.
Photosynthesis converts carbon dioxide and water into glucose.
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This cell manufactures energy-rich glucose during periods of photosynthesis with solar energy, water, and the carbon dioxide released by animals.
Photosynthesis converts carbon dioxide and water into glucose.
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photosynthesis A chemical process used by plants and algae to make glucose and oxygen from carbon dioxide and water, using light energy.
Photosynthesis converts carbon dioxide and water into glucose.
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A mirror image is created.
Plane mirrors work because the light rays create a virtual image behind the mirror.
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An extremely fast spherical mirror gathers light and focuses the image on the film plane.
Plane mirrors work because the light rays create a virtual image behind the mirror.
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If the telescope is collimated but the image is oval, that may mean the mirror has astigmatism , which results when light rays from the same zone of a mirror do not come to a focus in the same plane.
Plane mirrors work because the light rays create a virtual image behind the mirror.
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Images formed by plane mirrors;
Plane mirrors work because the light rays create a virtual image behind the mirror.
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Rays in that plane form a second line-image at a different distance from the mirror.
Plane mirrors work because the light rays create a virtual image behind the mirror.
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The image in a plane mirror is the same distance behind the mirror as the object is in front of the mirror.
Plane mirrors work because the light rays create a virtual image behind the mirror.
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The properties of the image formed by a plane mirror
Plane mirrors work because the light rays create a virtual image behind the mirror.
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They are mirror images of each other that differ only in their effect on plane-polarized light.
Plane mirrors work because the light rays create a virtual image behind the mirror.
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This is because the light rays reflecting off a plane mirror never converge, the major criterion for creating a real image .
Plane mirrors work because the light rays create a virtual image behind the mirror.
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We saw that plane mirrors form virtual images, i.e., the image is located behind the mirror and the light rays only appear to come from where the image is located.
Plane mirrors work because the light rays create a virtual image behind the mirror.
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Working with Mirrored Partitions Mirroring enables you to create a mirror image of a partition on another drive.
Plane mirrors work because the light rays create a virtual image behind the mirror.
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Our Sun wobbles because of the gravity of the planets orbiting it.
Planets are held by the force of gravity in elliptical orbits around sun.
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The force that governs the motions of within the solar system, keeps the planets in orbit around the sun, and the moon in orbit around the earth is gravity.
Planets are held by the force of gravity in elliptical orbits around sun.
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The idea that the same gravity force, which holds us on the ground also, pulls the planets into orbits around the Sun is not an intuitive one.
Planets are held by the force of gravity in elliptical orbits around sun.
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The sun keeps every planet in orbit by its gravity......
Planets are held by the force of gravity in elliptical orbits around sun.
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knows that gravity is the one of the forces that keeps planets arranged in orbits around the Sun and the Moon in orbit around the Earth.
Planets are held by the force of gravity in elliptical orbits around sun.
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A pellicle is lacking in cell structure.
Plant cells have structures that animal cells lack.
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Animal cells are distinct from other eukaryotes, most notably plant cells, as they lack cell walls and chloroplasts.
Plant cells have structures that animal cells lack.
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Animal cells lack cell walls and chloroplasts, which are present in most plants.
Plant cells have structures that animal cells lack.
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Animal cells lack the cellulose cells walls of plant cells.
Plant cells have structures that animal cells lack.
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Animal cells lack the rigid cell walls that characterize plant cells.
Plant cells have structures that animal cells lack.
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Aquatic plants have adapted to constant inundation, and they lack protective cell structures to protect them from desiccation.
Plant cells have structures that animal cells lack.
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These plants lack tanniferous cells.
Plant cells have structures that animal cells lack.
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Together, the cell wall, the chloroplasts, and the large vacuole you have observed are three very distinct cell structures lacking in most animals and many fungi.
Plant cells have structures that animal cells lack.
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Because they cannot move, plants must also defend themselves chemically from herbivores, pathogens and competition from other plants.
Plants face two types of enemies: herbivores and pathogens.
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Plants are not passive in the face of attack (enemies include pathogens, herbivorous insects, grazing mammals, etc).
Plants face two types of enemies: herbivores and pathogens.
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Plants, especially in tropical rainforests, experience intense attack by herbivores and pathogens Oll the young, expanding leaves, and have a remarkable array of defenses against these enemies.
Plants face two types of enemies: herbivores and pathogens.
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The glucosinolate-myrosinase system is assumed to play a role in plant-herbivore and plant-pathogen interactions.
Plants face two types of enemies: herbivores and pathogens.
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The person selected for this position will work as a member of a team of chemists, entomologists and plant biochemists to investigate the multitrophic interactions among plants, pathogens, insect herbivores and natural enemies of the herbivores.
Plants face two types of enemies: herbivores and pathogens.
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The second major area of interest is the involvement of glucosinolates in plant pathogen and plant-herbivore interactions.
Plants face two types of enemies: herbivores and pathogens.
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The synergy principle at work in plants, pathogens, insects, herbivors and humans;
Plants face two types of enemies: herbivores and pathogens.
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