Bacteria--Fungi Combined
... • Water Molds live in water, moist soil, or other organisms. Some of them are decomposers and thus eat dead matter. But many are parasites. • Slime Molds can move only at certain phases of their life cycle. Live in cool, moist places in the woods. They use pseudipodia to move around. But when enviro ...
... • Water Molds live in water, moist soil, or other organisms. Some of them are decomposers and thus eat dead matter. But many are parasites. • Slime Molds can move only at certain phases of their life cycle. Live in cool, moist places in the woods. They use pseudipodia to move around. But when enviro ...
Viral Infections of Special Concern Viroids and Prions
... billion years, and the fossil record indicates that the prokaryotes were alone on Earth for at least 1.3 billion years. During that time, they became extremely diverse in structure and especially diverse in metabolic capabilities. Prokaryotes are adapted to living in most environments because the va ...
... billion years, and the fossil record indicates that the prokaryotes were alone on Earth for at least 1.3 billion years. During that time, they became extremely diverse in structure and especially diverse in metabolic capabilities. Prokaryotes are adapted to living in most environments because the va ...
ch 18 Clasification v2 - Biology 1 / FrontPage
... a. traditional classification. c. binomial nomenclature. b. the three domains. d. cladistics. 2. For many species, there are often regional differences in their a. common names. c. taxa. b. scientific names. d. binomial nomenclature. 3. The second part of a scientific name is unique to each a. order ...
... a. traditional classification. c. binomial nomenclature. b. the three domains. d. cladistics. 2. For many species, there are often regional differences in their a. common names. c. taxa. b. scientific names. d. binomial nomenclature. 3. The second part of a scientific name is unique to each a. order ...
Ch. 16 Presentation
... – are a diverse collection of mostly unicellular eukaryotes, – may constitute multiple kingdoms within the Eukarya, and ...
... – are a diverse collection of mostly unicellular eukaryotes, – may constitute multiple kingdoms within the Eukarya, and ...
common ancestor
... Cyanobacteria are large photosynthetic prokaryotes. Most bacteria are heterotrophic. Important in ecosystems - keeping chemical cycling going. Some bacteria are parasitic and cause disease. ...
... Cyanobacteria are large photosynthetic prokaryotes. Most bacteria are heterotrophic. Important in ecosystems - keeping chemical cycling going. Some bacteria are parasitic and cause disease. ...
Fungi, Bacteria, Protists - Ms. Soto`s Biology I Class
... 1. What are the three things that all fungi have in common? 2. What is an example of a unicellular fungus? 3. What are two examples of multicellular fungi? 4. What is the process by which fungi break down food? 5. What are hyphae, and what are they used for? 6. What is asexual reproduction? 7. What ...
... 1. What are the three things that all fungi have in common? 2. What is an example of a unicellular fungus? 3. What are two examples of multicellular fungi? 4. What is the process by which fungi break down food? 5. What are hyphae, and what are they used for? 6. What is asexual reproduction? 7. What ...
Name: Date 6th grade - ______ Mrs. Collazo Science I. Questions: 1
... 15. Archaea and bacteria are simple, single-celled organisms. a. True b. False 16. Protists, archaea, and bacteria are similar in that they are all prokaryotes. a. True b. False 17. Unicellular organisms are members of which kingdoms? a. Animalia, Archaea, Plantae b. Archaea, Bacteria, Prostista ...
... 15. Archaea and bacteria are simple, single-celled organisms. a. True b. False 16. Protists, archaea, and bacteria are similar in that they are all prokaryotes. a. True b. False 17. Unicellular organisms are members of which kingdoms? a. Animalia, Archaea, Plantae b. Archaea, Bacteria, Prostista ...
Unit 2 * Chapter 18 - Campbell County Schools
... Target 2 – I can explain how living things are classified. A. Taxonomy 1. The scientific naming of all organisms on the planet is called “_________________.” 2. Taxonomy is the classification of all living things on the planet. B. Binomial nomenclature 1. Binomial nomenclature is system of naming or ...
... Target 2 – I can explain how living things are classified. A. Taxonomy 1. The scientific naming of all organisms on the planet is called “_________________.” 2. Taxonomy is the classification of all living things on the planet. B. Binomial nomenclature 1. Binomial nomenclature is system of naming or ...
FUNGI Five lineages of Fungi (Chytrids paraphyletic) II. Structure
... • Not photosynthetic, all heterotrophic by absorption. ...
... • Not photosynthetic, all heterotrophic by absorption. ...
I. Mycology: Mushrooms, molds, and yeasts. General Characteristics
... the exclusion of other Protista and Plants). Ancient, fossils associated with earliest land plants, ca. 400mya. – Molecular data suggests the split between the lineage leading to fungi and the lineage leading to animals occurred ca. 1 bya. ...
... the exclusion of other Protista and Plants). Ancient, fossils associated with earliest land plants, ca. 400mya. – Molecular data suggests the split between the lineage leading to fungi and the lineage leading to animals occurred ca. 1 bya. ...
I. Mycology: Mushrooms, molds, and yeasts. General Characteristics
... yeasts. The Absorptive Mode of Nutrition • Enzymes decompose organic materials. • Saprobes decompose and absorb nutrients from non-living organic matter. • Parasitic fungi absorb nutrients from cells of living hosts, some are pathogenic. • Mutualistic fungi also absorb from host organism, but re ...
... yeasts. The Absorptive Mode of Nutrition • Enzymes decompose organic materials. • Saprobes decompose and absorb nutrients from non-living organic matter. • Parasitic fungi absorb nutrients from cells of living hosts, some are pathogenic. • Mutualistic fungi also absorb from host organism, but re ...
1 slide/page - University of San Diego Home Pages
... the exclusion of other Protista and Plants). Ancient, fossils associated with earliest land plants, ca. 400mya. – Molecular data suggests the split between the lineage leading to fungi and the lineage leading to animals occurred ca. 1 bya. ...
... the exclusion of other Protista and Plants). Ancient, fossils associated with earliest land plants, ca. 400mya. – Molecular data suggests the split between the lineage leading to fungi and the lineage leading to animals occurred ca. 1 bya. ...
Phytoplankton 9 Oct 2001
... Explain why Lake Washington's watershed, morphology and flushing rate influenced recovery from nutrient loading. WHY are ...
... Explain why Lake Washington's watershed, morphology and flushing rate influenced recovery from nutrient loading. WHY are ...
microbes overview
... • Taxanomy is the science of classifying microbes into different groups based on their phenotype or genotype characters. • Types of classification: • natural (introduced by Carolus Linnaeus reflecting biological nature of an organism); • phenetic (based on similarities of biological and morphologica ...
... • Taxanomy is the science of classifying microbes into different groups based on their phenotype or genotype characters. • Types of classification: • natural (introduced by Carolus Linnaeus reflecting biological nature of an organism); • phenetic (based on similarities of biological and morphologica ...
lectures 16 and 17, evolution of microbial life, 070408
... No evidence exists today for spontaneous generation, but conditions on a young Earth were very different. The primordial atmosphere contained very little O2 to oxidize and breakdown molecules. Energy sources—including volcanoes, lightning, and ultraviolet light from the sun—were more intense than to ...
... No evidence exists today for spontaneous generation, but conditions on a young Earth were very different. The primordial atmosphere contained very little O2 to oxidize and breakdown molecules. Energy sources—including volcanoes, lightning, and ultraviolet light from the sun—were more intense than to ...
Gram-Positive Bacteria
... single-celled organisms • Protists constitute a polyphyletic group, and Protista is no longer valid as a kingdom • Protists are eukaryotes – organelles and are more complex than prokaryotic cells – Most are unicellular, but there are some colonial and multicellular species ...
... single-celled organisms • Protists constitute a polyphyletic group, and Protista is no longer valid as a kingdom • Protists are eukaryotes – organelles and are more complex than prokaryotic cells – Most are unicellular, but there are some colonial and multicellular species ...
Endosymbiotic Theory
... until about 2.3 bya and then dramatically increased. The increase was likely due to the evolution of more oxygen producing organisms. ...
... until about 2.3 bya and then dramatically increased. The increase was likely due to the evolution of more oxygen producing organisms. ...
PROKARYOTES…..
... • Results: After the apparatus had run for a week, an abundance of organic molecules essential for life had collected in the “sea,” including amino acids, the monomers of proteins. • Since Miller and Urey’s experiments, laboratory analogues of the primeval Earth have produced ...
... • Results: After the apparatus had run for a week, an abundance of organic molecules essential for life had collected in the “sea,” including amino acids, the monomers of proteins. • Since Miller and Urey’s experiments, laboratory analogues of the primeval Earth have produced ...
Classification of Microorganisms:
... Bacteria are unicellular prokaryotic microorganisms that multiply by binary fission. Bacteria can be classified according to morphology, arrangement, and staining reaction into the following groups: 1- Filamentous bacteria: Streptomyces: antibiotic producers. 2- True bacteria: ...
... Bacteria are unicellular prokaryotic microorganisms that multiply by binary fission. Bacteria can be classified according to morphology, arrangement, and staining reaction into the following groups: 1- Filamentous bacteria: Streptomyces: antibiotic producers. 2- True bacteria: ...
Chapter 1: The Microbial World and You
... Reproduce sexually or asexually Motile via: (not all) Pseudopods – extensions of cytoplasm Flagella – long whip-like structures ____ – numerous, short, hair-like structures General Characteristis of _________ Multicellular Not microscopic (except pinworms and larval forms) Medically significan ...
... Reproduce sexually or asexually Motile via: (not all) Pseudopods – extensions of cytoplasm Flagella – long whip-like structures ____ – numerous, short, hair-like structures General Characteristis of _________ Multicellular Not microscopic (except pinworms and larval forms) Medically significan ...
Endosymbiotic Theory
... from about 2.7 bya until about 2.3 bya and then dramatically increased. The increase was likely due to the evolution of more oxygen producing organisms. ...
... from about 2.7 bya until about 2.3 bya and then dramatically increased. The increase was likely due to the evolution of more oxygen producing organisms. ...
Ch 16
... modified mitochondria that generate some energy anaerobically – The parasite Trichomonas vaginalis is sexually transmitted, feeding on white blood cells and bacteria living in the cells lining the vagina Copyright © 2009 Pearson Education, Inc. ...
... modified mitochondria that generate some energy anaerobically – The parasite Trichomonas vaginalis is sexually transmitted, feeding on white blood cells and bacteria living in the cells lining the vagina Copyright © 2009 Pearson Education, Inc. ...
Protist
In all biological taxonomy schemes, protists (/ˈproʊtɨst/) were a large group of diverse eukaryotic microorganisms, mainly unicellular animals and plants, that do not form tissues. Formerly, these were assigned to the now-obsolete kingdom Protista. However in modern taxonomy the Protista are understood to be paraphyletic (not a clade), so the term remains in use only for convenience, similar to ""invertebrate"". An equivalent term Protoctista is used for these organisms by various organisations and institutions. Molecular analyses in modern taxonomy have been used to redistribute former members of this group into diverse and sometimes distantly related phyla. When used, the term “protists” is now considered to mean similar-appearing but diverse phyla that are not related through an exclusive common ancestor, and which have different life cycles, trophic levels, modes of locomotion, and cellular structures. Besides their relatively simple levels of organization, the protists do not have much in common.The term protista was first used by Ernst Haeckel in 1866. Protists were traditionally subdivided into several groups based on similarities to the ""higher"" kingdoms: the unicellular ""animal-like"" protozoa, the ""plant-like"" protophyta (mostly unicellular algae), and the ""fungus-like"" slime molds and water molds. These traditional subdivisions, largely based on superficial commonalities, have been replaced by classifications based on phylogenetics (evolutionary relatedness among organisms). However, the older terms are still used as informal names to describe the morphology and ecology of various protists.Protists live in almost any environment that contains liquid water. Many protists, such as algae, are photosynthetic and are vital primary producers in ecosystems, particularly in the ocean as part of the plankton. Other protists include pathogenic species such as the kinetoplastid Trypanosoma brucei, which causes sleeping sickness and species of the apicomplexan Plasmodium which cause malaria.