Eukarya

Protista

Animal-Like

Autotrophic

Sarcodines

Pseudopods stretch towards
prey

Ameoba Proteus

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Ciliates

Tiny hair around
organism called Cilia
Propel It

Paramedcium

Zooflagellates

Move by beating
a long whip like Flagella

Trypansoma Gambiense

Sporozoan

Do not move

Plasmodium

Fungi-Like

Saprophytic Heterotrophic

Acelluar Slime Molds

Red Raspberry Slime Mold

Water Molds

Pernonosporales

Cellular Slime Molds

Dictyostelium

Plant-Like

Heterotrophic

Rhodophyta

Red Algae

Dinoflageliates

Gonyaulax Catenella

Eugenoids

Euglena

Fungi

Ascomycota

Reproduces asexually or sexually.
in asexual, the fungus undergoes
fission, the cells splits apart to create
a copy of the fungus which can split apart.
In sexual, the two gametes have to combine

Pezizomycotina

Zygomycota

Reproduces asexually or sexually.
In asexual, hyphae produce sporangium,
which then burst to release spores,
which then germinate and produce more fungi.
In sexual, gametes form at the top of hyphae,
and combine with each other to reproduce

Rhizopus Stolonifer

Deutermycota

They do reproduce asexually
and undergoes sporogenesis
like other fungi. When the cell splits apart,
and creates a copy of the fungus

Aspergillus Niger

Basidiomycota

Reproduces asexually and sexually,
during sexual reproduction, Mycelia of
different mating strains combine to create
Mycelium. It reproduces asexually like other fungi

Agaricomycetes

Plantae

Bryophytes

Schreberi

Adaption:
- Found in fresh water,
they begin to adapt in that environment
- Grow in the water

Pterophyta

Pteropus

Adaption:
- contains a stem, allows for structural
support, and to give nutrients
- Reproduce by using haploid spores

Gymnosperms

Melinjo

Adaption:
- Contains roots, that help gather nutrients
- By using the xylem and phloem tissues

Angiosperms

Albosetulosa

Adaption:
- Have their own way of bringing nutrients
around the plant
- Live on land
- Produce flowers and covered seeds

Animalia

Porifera

Demosponge

It developed a stomach and
and flagellated cells to create
the flow of water

Cnidaria

Hydrozoans

Developed defense
mechanisms, as well
as, a nervous system

Platyhelminthes

Taenia

Developed body segmentation

Nematoda

Tubeaform

Developed two
opening, which
helps in digesting

Annelida

Clitellata

Developed a circulatory
system, and digestive
system
system and digestv

Mollusca

Gastropods

Developed an advanced
digestive and circulatory
system
digestuve ab

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Echindordermada

Asteroidea

Have multiple nerves
that help extend the arms

Domains of Life

Bacteria

Archaea

Arthropoda

Myriapoda

Chilopoda

Cingulata

Diplopoda

Sierra

Symphyla

Immaculata

Pauropoda

Amicus

Crustacea

Branchilopoda

Salina

Malacostra

Grapsus

Maxillopoda

Pavo

Ostracoda

Mediterranea

Hexapoda

Insecta

Livida

Enthognatha

Sensillata

Chelicerates

Arachnida

Acariformes

Merostromata

Polyphermus

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pycnogonida

Hydrozoans

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Eubacteria

Bacillus

Bacillus Circulans

Coccus

Staphylococcus Epidermidis

sprillum

Campylobacter Jejuni

Archaeabacteria

Methanogens

Halophiles

Thermoacidphiles

Chordata

Tunicates

Vertebrate

Agnathans

Gnathostomata

Osteichthyes

Chondrichthyes

Amphibia

Reptillia

Aves

Mammalia

Placentals

Young nourished by
placenta

It is more superior because the offspring are able to develop
completely inside the mothers body, unlike Marsupial where they are born immature. Since they are born mature, they have have higher chance of survival

Monotremes

Egg layers

Marsupial

Small immature
fetus

It is more superior because monotreme offspring are less likely to survive, due to the fact that their eggs are harder to protect

Cephalochordates

Evolutionary Milestone for Arthropoda:
Developed gills or internal airways with jointed appendages with multiple systems

Evolutionary Milestone for Chordata:
Developed a backbone

- Eukaryotic, heterotrphoic, multicellular organisms
- Have multiple cells
- Usually develop from a zygote

- Are multicelluar
- Eukaryotes
- Contain a cell wall
made up of cellulose

- Eukaryotes
- Most are multicellular
- All fungi are heterotrophic

- Eukaryotic organisms
- Can be heterotrophic
- Mostly unicelluar

- part of the prokaryotic organism family group
- tiny single celled organisms
- The oldest organisms on the earth

- Eubacteria are unicellular
- They are prokaryotes
- Plasmid

- Single celled prokaryotic
organisms
- No nucleus
-

- Contain nucleus
- Reproduce by mitosis
or meiosis
- They are all complex
organisms

- No nucleus
- Single celled
prokaryotic organisms