Bell Work identify the phylum that each character belongs to
Bell Work identify the phylum that each character belongs to Porifera
Bell Work identify the phylum that each character belongs to Porifera Echinodermata
Bell Work identify the phylum that each character belongs to Porifera Echinodermata Mollusca
Bell Work identify the phylum that each character belongs to Porifera Echinodermata Mollusca Chordata
Bell Work identify the phylum that each character belongs to Porifera Echinodermata Mollusca Chordata Mollusca
Bell Work identify the phylum that each character belongs to Porifera Echinodermata Mollusca Chordata Mollusca Arthropoda
Characteristics of Fungi
eukaryotic cells Characteristics of Fungi
Characteristics of Fungi eukaryotic cells heterotrophs (decomposers)
Characteristics of Fungi eukaryotic cells heterotrophs (decomposers) cell wall made of chitin
Characteristics of Fungi eukaryotic cells heterotrophs (decomposers) cell wall made of chitin can be either:
Characteristics of Fungi eukaryotic cells heterotrophs (decomposers) cell wall made of chitin can be either: unicellular (yeast)
Characteristics of Fungi eukaryotic cells heterotrophs (decomposers) cell wall made of chitin can be either: unicellular (yeast) multicellular (mushrooms, mold)
Fungi Nutrition
fungi get nutrients by sending out threadlike structures called hyphae Fungi Nutrition
fungi get nutrients by sending out threadlike structures called hyphae hyphae release enzymes that break down food Fungi Nutrition
fungi get nutrients by sending out threadlike structures called hyphae hyphae release enzymes that break down food extracellular digestion Fungi Nutrition
fungi get nutrients by sending out threadlike structures called hyphae hyphae release enzymes that break down food extracellular digestion food particles then diffuse into the hyphae Fungi Nutrition
Fungi Reproduction
Fungi Reproduction Yeast reproduce asexually
Fungi Reproduction Yeast reproduce asexually Budding:
Fungi Reproduction Yeast reproduce asexually Budding: a new yeast grows from a parent and eventually breaks off
Fungi Reproduction Yeast reproduce asexually Budding: a new yeast grows from a parent and eventually breaks off Fission:
Fungi Reproduction Yeast reproduce asexually Budding: a new yeast grows from a parent and eventually breaks off Fission: :yeast splits in half to form two yeast cells (mitosis)
Fungi Reproduction
Fungi Reproduction Mushrooms reproduce sexually by forming spores
Fungi Reproduction Mushrooms reproduce sexually by forming spores Haploid spores are produced by meiosis
Fungi Reproduction Mushrooms reproduce sexually by forming spores Haploid spores are produced by meiosis Two spores combine to form a diploid cell
Fungi Reproduction
Fungi Reproduction Mold reproduce sexually or asexually
Fungi Reproduction Mold reproduce sexually or asexually Produce asexual spores or two hyphae fuse together to mate
Characteristics of Bacteria
Characteristics of Bacteria bacteria are divided into two kingdoms
Characteristics of Bacteria bacteria are divided into two kingdoms Archaebacteria
Characteristics of Bacteria bacteria are divided into two kingdoms Archaebacteria prokaryotic
Characteristics of Bacteria bacteria are divided into two kingdoms Archaebacteria prokaryotic bacteria that survive in harsh condition (thermophiles, halophiles)
Characteristics of Bacteria bacteria are divided into two kingdoms Archaebacteria prokaryotic bacteria that survive in harsh condition (thermophiles, halophiles) oldest forms of life
Characteristics of Bacteria bacteria are divided into two kingdoms Archaebacteria Eubacteria prokaryotic bacteria that survive in harsh condition (thermophiles, halophiles) oldest forms of life
Characteristics of Bacteria bacteria are divided into two kingdoms Archaebacteria prokaryotic Eubacteria prokaryotic bacteria that survive in harsh condition (thermophiles, halophiles) oldest forms of life
Characteristics of Bacteria bacteria are divided into two kingdoms Archaebacteria prokaryotic bacteria that survive in harsh condition Eubacteria prokaryotic typical bacteria (thermophiles, halophiles) oldest forms of life
Characteristics of Protists
Characteristics of Protists eukaryotic cells
Characteristics of Protists eukaryotic cells junk drawer or catch-all kingdom
Characteristics of Protists eukaryotic cells junk drawer or catch-all kingdom organisms that don t fit into a different kingdom
Animal-Like Protists
Animal-Like Protists unicellular protozoans
Animal-Like Protists unicellular protozoans Ex: amoeba, paramecium
Plant-Like Protists
Plant-Like Protists unicellular and/or contain pigments other than chlorophyll to photosynthesize
Plant-Like Protists unicellular and/or contain pigments other than chlorophyll to photosynthesize Ex: algae (red, brown)
Fungus-Like Protists
Fungus-Like Protists fungi that are able to move for at least part of their life cycle
Fungus-Like Protists fungi that are able to move for at least part of their life cycle Ex: slime molds, downy mildews, water molds
Review Questions 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 is the difference between budding and fission? 8. How do mushrooms reproduce? 9. What are the different methods mold can use to reproduce? 10. What are the similarities between the two types of bacteria? 11. What are the differences between them? 12. What is the group of animal-like protists called? 13. How are plant-like protists different from real plants? 14. How are fungus-like protists different from real fungi?