Category
Health (17)Environmental Science (12)Medicine (11)Dentistry (9)Biology (8)Animals (8)Nutrition (7)Science (7)Agriculture (7)Environment (6)Ecology (6)Pharmacology (5)Marine Biology (4)Pediatrics (3)Immunology (3)Microbiology (3)Humans (3)Zoology (3)Gastroenterology (2)Oceanography (2)Research (2)Sexual Health (2)Neuroscience (2)Medical Testing (2)Endocrinology (2)Soil Science (2)Microbial Ecology (2)Anatomy (2)Environmental Remediation (2)Environmental Disaster (2)Marine Science (1)Dermatology (1)Dental Research (1)Climate (1)Hvac Maintenance (1)Environmental Toxicology (1)Agricultural Science (1)Marine Ecology (1)Physical Properties (1)Oncology (1)Neurochemistry (1)Scientific Study (1)Plant Science (1)Neurology (1)Mental Health (1)Preventive Medicine (1)Gardening (1)Psychology (1)Environmental Impact (1)Obstetrics (1)Clinical Trials (1)Molecular Biology (1)Urban Studies (1)Gynecology (1)Gerontology (1)Copd (1)Babies (1)Periodontics (1)Reproductive Medicine (1)Land Management (1)Infectious Disease (1)Biochemistry (1)Beauty (1)Dental Hygiene (1)Animal Science (1)Aquarium (1)Marine Life (1)Botany (1)Environmental Engineering (1)Plant Biology (1)Sustainable Agriculture (1)
Usage Examples
Filter by Meaning Certain microorganisms in the respiratory microbiota can break down pollutants.
The respiratory microbiota of healthy individuals differs from that of those with chronic lung disease.
Studies have found a link between changes in the respiratory microbiota and the development of asthma.
The respiratory microbiota plays a role in the development of the immune system.
The human respiratory microbiota can include bacteria such as Streptococcus and Haemophilus.
The microbiota in the respiratory tract helps protect the body from harmful pathogens.
The composition of microbiota in freshwater ecosystems is different from that in marine environments.
Harmful algal blooms can disrupt the balance of microbiota in aquatic environments.
The microbiota of corals in the Great Barrier Reef is under threat from rising ocean temperatures.
The microbiota of the Arctic Ocean is being impacted by climate change.
Imbalances in the urogenital microbiota can lead to infections.
Changes in ocean temperatures can have significant effects on the microbiota in the ocean.
The study of microbiota in the ocean has led to new discoveries in medical science.
Pollution in the ocean can negatively impact the microbiota, disrupting the balance of the ecosystem.
Understanding the diversity of microbiota in the ocean is important for studying evolution.
Certain species of fish rely on specific microbiota to survive and thrive in the ocean.
Climate change is causing changes in the microbiota in the ocean, affecting the entire ecosystem.
Certain types of contraception can affect the microbiota of the urogenital tract.
Antibiotics can kill both harmful and beneficial microbiota in your gut.
The human microbiota is composed of a diverse array of microorganisms.
The microbiota on our skin helps protect us from harmful pathogens.
The respiratory microbiota has been linked to the development of chronic obstructive pulmonary disease
Research is ongoing to understand the role of the respiratory microbiota in lung cancer.
Some species of the respiratory microbiota are thought to play a role in protecting against respiratory infections.
The composition of the respiratory microbiota can vary depending on the location in the respiratory tract.
Antibiotic use can disrupt the respiratory microbiota and lead to infections.
Research suggests that certain strains of microbiota on the skin can contribute to acne.
The microbiota on the skin of infants can be influenced by delivery method and breastfeeding.
The composition of the microbiota on the skin of healthy individuals differs from those with skin disorders.
The skin microbiota can play a role in modulating the immune system.
The respiratory microbiota can produce beneficial compounds like short-chain fatty acids.
The urogenital microbiota is made up of bacteria and other microorganisms.
The urogenital microbiota can play a role in the development of sexually transmitted infections.
The study of the urogenital microbiota is an emerging field in microbiology.
The microbiota in the ocean can be used to create new food products and biodegradable materials.
The gut microbiota can influence the permeability of the intestinal barrier and thus affect the absorption of nutrients and other substances.
Stress can disrupt the balance of microbiota in your gut.
The gut microbiota is able to interact with and modify the host's epigenetic landscape, leading to changes in gene expression.
The gut microbiota can influence the development and progression of neurological disorders such as Parkinson's disease and multiple sclerosis.
The microbiota in the gut can affect the metabolism of certain drugs.
The gut microbiota plays a crucial role in the development and maintenance of the host immune system.
The gut microbiota of a newborn baby is still developing.
The microbiota in your gut can affect your immune system.
Probiotics are supplements that add beneficial microbiota to your gut.
The gut microbiota can produce a variety of neurotransmitters and other signaling molecules that can influence the host's behavior and cognition.
The microbiota in your gut helps break down food.
The gut microbiota can be targeted for therapeutic interventions, such as fecal microbiota transplantation, in order to treat certain diseases.
The composition of the gut microbiota can vary greatly between individuals and even between different regions of the gastrointestinal tract.
The gut microbiota can play a role in the development of food allergies.
The gut microbiota can influence the production of neurotransmitters like serotonin.
Post a Comment