RFPT5HYB–Computer illustration of the ciliate protozoan Balantidium coli, an intestinal parasite that may cause ulcers (balantidiasis) in the intestinal tract of humans. It is a rare form of dysentery, which is mainly limited to farm workers and those in close association with pigs. The parasites are common and harmless amongst pigs. They form cysts which pass out of the pigs in their faeces. Humans contract the disease through food or drink contaminated by such cysts.
RF2RY4FTR–Diagonal view of glittering Green Bottle Fly isolated on white background.
RM2H382RH–Emerging unfurling fronds (fiddleheads) of Hart’s tongue fern (Asplenium scolopendrium) create an unworldly Sci-fi scene Cumbria, England, UK
RMCW10YM–COMMON FLEABANE AND HONEY BEE
RF2R728KA–Computer illustration of an abstract pathogenic microorganisms which can be used as a medical or scientific background.
RMF7RHBJ–Common Fleabane, Passfield & Conford
RFTBFCGE–Diver in the deep sea. cartoon style
RFPT5HY8–Computer illustration of the ciliate protozoan Balantidium coli, an intestinal parasite that may cause ulcers (balantidiasis) in the intestinal tract of humans. It is a rare form of dysentery, which is mainly limited to farm workers and those in close association with pigs. The parasites are common and harmless amongst pigs. They form cysts which pass out of the pigs in their faeces. Humans contract the disease through food or drink contaminated by such cysts.
RM2H382RN–Emerging unfurling fronds (fiddleheads) of Hart’s tongue fern (Asplenium scolopendrium) create an unworldly Sci-fi scene Cumbria, England, UK
RMCW390X–COMMON FLEABANE WITH BEE
RF2R728KD–Computer illustration of an abstract pathogenic microorganisms which can be used as a medical or scientific background.
RFTBFCFN–Diver in the deep sea. cartoon style
RFPT5HY9–Computer illustration of the ciliate protozoan Balantidium coli, an intestinal parasite that may cause ulcers (balantidiasis) in the intestinal tract of humans. It is a rare form of dysentery, which is mainly limited to farm workers and those in close association with pigs. The parasites are common and harmless amongst pigs. They form cysts which pass out of the pigs in their faeces. Humans contract the disease through food or drink contaminated by such cysts.
RMD1G1EF–COMMON FLEABANE WITH HONEY BEE
RF2R728GX–Computer illustration of an abstract pathogenic microorganisms which can be used as a medical or scientific background.
RFTBFCGH–Diver in the deep sea. cartoon style
RFPT5HYA–Computer illustration of the ciliate protozoan Balantidium coli, an intestinal parasite that may cause ulcers (balantidiasis) in the intestinal tract of humans. It is a rare form of dysentery, which is mainly limited to farm workers and those in close association with pigs. The parasites are common and harmless amongst pigs. They form cysts which pass out of the pigs in their faeces. Humans contract the disease through food or drink contaminated by such cysts.
RMCW2C4F–COMMON FLEABANE AND BEE
RF2R728K5–Computer illustration of an abstract pathogenic microorganisms which can be used as a medical or scientific background.
RFPT5HYC–Computer illustration of the ciliate protozoan Balantidium coli, an intestinal parasite that may cause ulcers (balantidiasis) in the intestinal tract of humans. It is a rare form of dysentery, which is mainly limited to farm workers and those in close association with pigs. The parasites are common and harmless amongst pigs. They form cysts which pass out of the pigs in their faeces. Humans contract the disease through food or drink contaminated by such cysts.
RMCW15B4–COMMON FLEABANE (PULICARIA DYSENTERICA)
RF2R728K6–Computer illustration of an abstract pathogenic microorganisms which can be used as a medical or scientific background.
RFPT5HYD–Computer illustration of the ciliate protozoan Balantidium coli, an intestinal parasite that may cause ulcers (balantidiasis) in the intestinal tract of humans. It is a rare form of dysentery, which is mainly limited to farm workers and those in close association with pigs. The parasites are common and harmless amongst pigs. They form cysts which pass out of the pigs in their faeces. Humans contract the disease through food or drink contaminated by such cysts.
RMCYX9R4–COMMON FLEABANE AND BEE
RF2R728H3–Computer illustration of an abstract pathogenic microorganisms which can be used as a medical or scientific background.
RFPT5HY3–Computer illustration of the ciliate protozoan Balantidium coli, an intestinal parasite that may cause ulcers (balantidiasis) in the intestinal tract of humans. It is a rare form of dysentery, which is mainly limited to farm workers and those in close association with pigs. The parasites are common and harmless amongst pigs. They form cysts which pass out of the pigs in their faeces. Humans contract the disease through food or drink contaminated by such cysts.
RFJFEED2–Parasitic amoeba (Entamoeba histolytica), computer illustration. This single-celled organism causes amoebic dysentery and ulcers (vegetative trophozoite stage). It is spread by faecal contamination of food and water and is most common where sanitation is poor. Amoebae invade the intestine but may spread to the liver, lungs and other tissues. Infection is caused by the ingestion of cysts that develop into the pathogenic trophozoite amoeba seen here. Entamoeba histolytica occurs worldwide, with up to 50% of the population being infected primarily in warmer climates.
RMCW2C49–COMMON FLEABANE AND HONEY BEE
RF2R728H2–Computer illustration of an abstract pathogenic microorganisms which can be used as a medical or scientific background.
RFJFEEDC–Parasitic amoeba (Entamoeba histolytica) engulfing red blood cells, computer illustration. This single-celled organism causes amoebic dysentery and ulcers (vegetative trophozoite stage). It is spread by faecal contamination of food and water and is most common where sanitation is poor. Amoebae invade the intestine but may spread to the liver, lungs and other tissues. Infection is caused by the ingestion of cysts that develop into the pathogenic trophozoite amoeba seen here. Entamoeba histolytica occurs worldwide, with up to 50% of the population being infected primarily in warmer climates.
RF2R728HE–Computer illustration of an abstract pathogenic microorganisms which can be used as a medical or scientific background.
RFJFEEDA–Parasitic amoeba (Entamoeba histolytica) engulfing red blood cells, computer illustration. This single-celled organism causes amoebic dysentery and ulcers (vegetative trophozoite stage). It is spread by faecal contamination of food and water and is most common where sanitation is poor. Amoebae invade the intestine but may spread to the liver, lungs and other tissues. Infection is caused by the ingestion of cysts that develop into the pathogenic trophozoite amoeba seen here. Entamoeba histolytica occurs worldwide, with up to 50% of the population being infected primarily in warmer climates.
RFMYDR5T–Parasitic amoeba (Entamoeba histolytica) in the large intestine, computer illustration. This single-celled organism causes amoebic dysentery and ulcers (vegetative trophozoite stage). It is spread by faecal contamination of food and water and is most common where sanitation is poor. Amoebae invade the intestine but may spread to the liver, lungs and other tissues. Infection is caused by the ingestion of cysts that develop into the pathogenic trophozoite amoeba seen here. Entamoeba histolytica occurs worldwide, with up to 50% of the population being infected, primarily in warmer climates.
RFJFEED0–Parasitic amoeba (Entamoeba histolytica), computer illustration. This single-celled organism causes amoebic dysentery and ulcers (vegetative trophozoite stage). It is spread by faecal contamination of food and water and is most common where sanitation is poor. Amoebae invade the intestine but may spread to the liver, lungs and other tissues. Infection is caused by the ingestion of cysts that develop into the pathogenic trophozoite amoeba seen here. Entamoeba histolytica occurs worldwide, with up to 50% of the population being infected primarily in warmer climates.
RF2R728H0–Computer illustration of an abstract pathogenic microorganisms which can be used as a medical or scientific background.
RFJFEECY–Parasitic amoeba (Entamoeba histolytica), computer illustration. This single-celled organism causes amoebic dysentery and ulcers (vegetative trophozoite stage). It is spread by faecal contamination of food and water and is most common where sanitation is poor. Amoebae invade the intestine but may spread to the liver, lungs and other tissues. Infection is caused by the ingestion of cysts that develop into the pathogenic trophozoite amoeba seen here. Entamoeba histolytica occurs worldwide, with up to 50% of the population being infected primarily in warmer climates.
RFJFEED1–Parasitic amoeba (Entamoeba histolytica), computer illustration. This single-celled organism causes amoebic dysentery and ulcers (vegetative trophozoite stage). It is spread by faecal contamination of food and water and is most common where sanitation is poor. Amoebae invade the intestine but may spread to the liver, lungs and other tissues. Infection is caused by the ingestion of cysts that develop into the pathogenic trophozoite amoeba seen here. Entamoeba histolytica occurs worldwide, with up to 50% of the population being infected primarily in warmer climates.
RFJFEEDE–Parasitic amoeba (Entamoeba histolytica), computer illustration. This single-celled organism causes amoebic dysentery and ulcers (vegetative trophozoite stage). It is spread by faecal contamination of food and water and is most common where sanitation is poor. Amoebae invade the intestine but may spread to the liver, lungs and other tissues. Infection is caused by the ingestion of cysts that develop into the pathogenic trophozoite amoeba seen here. Entamoeba histolytica occurs worldwide, with up to 50% of the population being infected primarily in warmer climates.
RFJFEED5–Parasitic amoeba (Entamoeba histolytica) engulfing red blood cells, computer illustration. This single-celled organism causes amoebic dysentery and ulcers (vegetative trophozoite stage). It is spread by faecal contamination of food and water and is most common where sanitation is poor. Amoebae invade the intestine but may spread to the liver, lungs and other tissues. Infection is caused by the ingestion of cysts that develop into the pathogenic trophozoite amoeba seen here. Entamoeba histolytica occurs worldwide, with up to 50% of the population being infected primarily in warmer climates.
RFJFEED6–Parasitic amoeba (Entamoeba histolytica) engulfing red blood cells, computer illustration. This single-celled organism causes amoebic dysentery and ulcers (vegetative trophozoite stage). It is spread by faecal contamination of food and water and is most common where sanitation is poor. Amoebae invade the intestine but may spread to the liver, lungs and other tissues. Infection is caused by the ingestion of cysts that develop into the pathogenic trophozoite amoeba seen here. Entamoeba histolytica occurs worldwide, with up to 50% of the population being infected primarily in warmer climates.
RFJFEEDH–Parasitic amoeba (Entamoeba histolytica) invading the intestine, computer illustration. This single-celled organism causes amoebic dysentery and ulcers (vegetative trophozoite stage). It is spread by faecal contamination of food and water and is most common where sanitation is poor. Amoebae invade the intestine but may spread to the liver, lungs and other tissues. Infection is caused by the ingestion of cysts that develop into the pathogenic trophozoite amoeba seen here. Entamoeba histolytica occurs worldwide, with up to 50% of the population being infected primarily in warmer climates.
RFJFEED9–Parasitic amoeba (Entamoeba histolytica) engulfing red blood cells, computer illustration. This single-celled organism causes amoebic dysentery and ulcers (vegetative trophozoite stage). It is spread by faecal contamination of food and water and is most common where sanitation is poor. Amoebae invade the intestine but may spread to the liver, lungs and other tissues. Infection is caused by the ingestion of cysts that develop into the pathogenic trophozoite amoeba seen here. Entamoeba histolytica occurs worldwide, with up to 50% of the population being infected primarily in warmer climates.
RFJFEED4–Parasitic amoeba (Entamoeba histolytica) engulfing red blood cells, computer illustration. This single-celled organism causes amoebic dysentery and ulcers (vegetative trophozoite stage). It is spread by faecal contamination of food and water and is most common where sanitation is poor. Amoebae invade the intestine but may spread to the liver, lungs and other tissues. Infection is caused by the ingestion of cysts that develop into the pathogenic trophozoite amoeba seen here. Entamoeba histolytica occurs worldwide, with up to 50% of the population being infected primarily in warmer climates.
RFJFEED8–Parasitic amoeba (Entamoeba histolytica) engulfing red blood cells, computer illustration. This single-celled organism causes amoebic dysentery and ulcers (vegetative trophozoite stage). It is spread by faecal contamination of food and water and is most common where sanitation is poor. Amoebae invade the intestine but may spread to the liver, lungs and other tissues. Infection is caused by the ingestion of cysts that develop into the pathogenic trophozoite amoeba seen here. Entamoeba histolytica occurs worldwide, with up to 50% of the population being infected primarily in warmer climates.
RFJFEEDG–Parasitic amoeba (Entamoeba histolytica) invading the intestine, computer illustration. This single-celled organism causes amoebic dysentery and ulcers (vegetative trophozoite stage). It is spread by faecal contamination of food and water and is most common where sanitation is poor. Amoebae invade the intestine but may spread to the liver, lungs and other tissues. Infection is caused by the ingestion of cysts that develop into the pathogenic trophozoite amoeba seen here. Entamoeba histolytica occurs worldwide, with up to 50% of the population being infected primarily in warmer climates.
RFJFEEDK–Parasitic amoeba (Entamoeba histolytica) invading the intestine, computer illustration. This single-celled organism causes amoebic dysentery and ulcers (vegetative trophozoite stage). It is spread by faecal contamination of food and water and is most common where sanitation is poor. Amoebae invade the intestine but may spread to the liver, lungs and other tissues. Infection is caused by the ingestion of cysts that develop into the pathogenic trophozoite amoeba seen here. Entamoeba histolytica occurs worldwide, with up to 50% of the population being infected primarily in warmer climates.
RFJFEED3–Parasitic amoeba (Entamoeba histolytica) engulfing red blood cells, computer illustration. This single-celled organism causes amoebic dysentery and ulcers (vegetative trophozoite stage). It is spread by faecal contamination of food and water and is most common where sanitation is poor. Amoebae invade the intestine but may spread to the liver, lungs and other tissues. Infection is caused by the ingestion of cysts that develop into the pathogenic trophozoite amoeba seen here. Entamoeba histolytica occurs worldwide, with up to 50% of the population being infected primarily in warmer climates.
RFJFEEDB–Parasitic amoeba (Entamoeba histolytica) engulfing red blood cells, computer illustration. This single-celled organism causes amoebic dysentery and ulcers (vegetative trophozoite stage). It is spread by faecal contamination of food and water and is most common where sanitation is poor. Amoebae invade the intestine but may spread to the liver, lungs and other tissues. Infection is caused by the ingestion of cysts that develop into the pathogenic trophozoite amoeba seen here. Entamoeba histolytica occurs worldwide, with up to 50% of the population being infected primarily in warmer climates.
RFJFEEDJ–Parasitic amoeba (Entamoeba histolytica) invading the intestine, computer illustration. This single-celled organism causes amoebic dysentery and ulcers (vegetative trophozoite stage). It is spread by faecal contamination of food and water and is most common where sanitation is poor. Amoebae invade the intestine but may spread to the liver, lungs and other tissues. Infection is caused by the ingestion of cysts that develop into the pathogenic trophozoite amoeba seen here. Entamoeba histolytica occurs worldwide, with up to 50% of the population being infected primarily in warmer climates.
RFJFEEDF–Parasitic amoeba (Entamoeba histolytica) in a blood vessel, computer illustration. This single-celled organism causes amoebic dysentery and ulcers (vegetative trophozoite stage). It is spread by faecal contamination of food and water and is most common where sanitation is poor. Amoebae invade the intestine but may spread to the liver, lungs and other tissues. Infection is caused by the ingestion of cysts that develop into the pathogenic trophozoite amoeba seen here. Entamoeba histolytica occurs worldwide, with up to 50% of the population being infected primarily in warmer climates.
RFJFEED7–Parasitic amoeba (Entamoeba histolytica) engulfing red blood cells, computer illustration. This single-celled organism causes amoebic dysentery and ulcers (vegetative trophozoite stage). It is spread by faecal contamination of food and water and is most common where sanitation is poor. Amoebae invade the intestine but may spread to the liver, lungs and other tissues. Infection is caused by the ingestion of cysts that develop into the pathogenic trophozoite amoeba seen here. Entamoeba histolytica occurs worldwide, with up to 50% of the population being infected primarily in warmer climates.
RFJFEEDD–Parasitic amoeba (Entamoeba histolytica) engulfing red blood cells, computer illustration. This single-celled organism causes amoebic dysentery and ulcers (vegetative trophozoite stage). It is spread by faecal contamination of food and water and is most common where sanitation is poor. Amoebae invade the intestine but may spread to the liver, lungs and other tissues. Infection is caused by the ingestion of cysts that develop into the pathogenic trophozoite amoeba seen here. Entamoeba histolytica occurs worldwide, with up to 50% of the population being infected primarily in warmer climates.
RFMYDR5R–Parasitic amoeba (Entamoeba histolytica) in the large intestine, computer illustration. This single-celled organism causes amoebic dysentery and ulcers (vegetative trophozoite stage). It is spread by faecal contamination of food and water and is most common where sanitation is poor. Amoebae invade the intestine but may spread to the liver, lungs and other tissues. Infection is caused by the ingestion of cysts that develop into the pathogenic trophozoite amoeba seen here. Entamoeba histolytica occurs worldwide, with up to 50% of the population being infected, primarily in warmer climates.
RFMYDR5P–Parasitic amoeba (Entamoeba histolytica) in the large intestine, computer illustration. This single-celled organism causes amoebic dysentery and ulcers (vegetative trophozoite stage). It is spread by faecal contamination of food and water and is most common where sanitation is poor. Amoebae invade the intestine but may spread to the liver, lungs and other tissues. Infection is caused by the ingestion of cysts that develop into the pathogenic trophozoite amoeba seen here. Entamoeba histolytica occurs worldwide, with up to 50% of the population being infected, primarily in warmer climates.
RFMYDR5M–Parasitic amoeba (Entamoeba histolytica) in the large intestine, computer illustration. This single-celled organism causes amoebic dysentery and ulcers (vegetative trophozoite stage). It is spread by faecal contamination of food and water and is most common where sanitation is poor. Amoebae invade the intestine but may spread to the liver, lungs and other tissues. Infection is caused by the ingestion of cysts that develop into the pathogenic trophozoite amoeba seen here. Entamoeba histolytica occurs worldwide, with up to 50% of the population being infected, primarily in warmer climates.
RFMYDR5N–Parasitic amoeba (Entamoeba histolytica) in the large intestine, computer illustration. This single-celled organism causes amoebic dysentery and ulcers (vegetative trophozoite stage). It is spread by faecal contamination of food and water and is most common where sanitation is poor. Amoebae invade the intestine but may spread to the liver, lungs and other tissues. Infection is caused by the ingestion of cysts that develop into the pathogenic trophozoite amoeba seen here. Entamoeba histolytica occurs worldwide, with up to 50% of the population being infected, primarily in warmer climates.
RF2BE418A–Male whipworm (Trichuris trichiura), a nematode parasite of humans, computer illustration. The front of the worm (upper left) is narrow and pointed like a hair or whip. The rear is five or six times wider. Adult worms live in the intestine with the front end buried in the intestine wall. The worms can live for several years, usually without causing much harm to the host. When the infestation is severe, diarrhoea, dysentery and anaemia can result. The worm's intestine is dark red, the testis, vas deferens and ejaculatory duct are blue, and the nerve ring is purple.
RFWERM4M–Parasitic microorganisms, illustration
RFT9CE56–Parasitic amoeba, illustration
RFMYDR63–Computer illustration of abstract pathogenic microorganisms in human large intestine.
RFT85Y10–Parasitic amoeba, illustration
RFT85Y0W–Parasitic amoeba, illustration
RFT85Y0X–Parasitic amoeba, illustration
RFT85Y11–Parasitic amoeba, illustration
RFT85Y24–Parasitic amoeba, illustration
RFWERM46–Parasitic microorganisms, illustration
RFWERM53–Parasitic microorganisms, illustration
RFWERM4N–Parasitic microorganisms, illustration
RFWERM48–Parasitic microorganisms, illustration
RFWERM4E–Parasitic microorganisms, illustration
RFWERM4Y–Parasitic microorganisms, illustration
RFWERM4G–Parasitic microorganisms, illustration
RFWERM4K–Parasitic microorganisms, illustration
RFWERM56–Parasitic microorganisms, illustration
RFJMXDK3–Computer illustration of abstract pathogenic microorganisms.
RFJMXDJT–Computer illustration of abstract pathogenic microorganisms.
RFJMXDJB–Computer illustration of abstract pathogenic microorganisms.
RFJMXDJF–Computer illustration of abstract pathogenic microorganisms.
RFJMXDK0–Computer illustration of abstract pathogenic microorganisms.
RFJMXDJA–Computer illustration of abstract pathogenic microorganisms.
RFJMXDJY–Computer illustration of abstract pathogenic microorganisms.
RFJMXDJR–Computer illustration of abstract pathogenic microorganisms.
RFJMXDJE–Computer illustration of abstract pathogenic microorganisms.
RFJMXDJW–Computer illustration of abstract pathogenic microorganisms.
RFMYDR60–Computer illustration of abstract pathogenic microorganisms in human large intestine.
RFMYDR62–Computer illustration of abstract pathogenic microorganisms in human large intestine.
RFMYDR64–Computer illustration of abstract pathogenic microorganisms in human large intestine.
RFT85Y0T–Parasitic amoeba, illustration
RFT85Y13–Parasitic amoeba, illustration
RFT85Y14–Parasitic amoeba, illustration
RFT85Y0P–Parasitic amoeba, illustration
RFT85Y0M–Parasitic amoeba, illustration
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