Categories: All - morphology - adaptations - eubacteria - eukaryotic

by Singh Sarthak 5 years ago

606

Concep Map

The discussed organisms exhibit a wide range of adaptations, reflecting their diverse evolutionary paths. Eukaryotic organisms such as fungi and animals show complex cellular structures and reproductive strategies.

Concep Map

unique skeletal structure similar to therapsids

unusually low metabolic rates

single bone in their lower jaw

do not have canine teeth

large pair of incisors

tendency to hold body upright

larger brain/body ratio than other mammals

stereoscopic vision

rotating shoulder joint

Adaptations to Terrestrial Life

Legend

Description

Domain
Kingdom

Phyla

Subphlya

Superclass

Class

Subclass

Order

Complex Organisms

Complexity Increases from Porifera to Chordata

Adaptations

Absorb nutrients

multicellular

Usually develop from a zygote(except sponges)

Diploid

Multicellular

Cell wall made of cellulose

Most are unicelleular

Photosynthesize

Survive on the planets most inhospitable areas

Can survive in very high temperature, salty or acidic environments

Oldest organisms on earth

Found in hydrothermal environments

Include mostly thermophiles and hyperthermophiles

Includes thermophiles which are organisms that thrive in high temperatures

Include halophiles which are organimss that thrive in extremely salty environments

Include methanogens which are anaerobic methane producing organisms

non-motile

Heterotrophic

contain no chlorophyll

Eukaryotic

Do not photosynthesize

spiral-shaped

rod-shaped

spherical or ovoid in shape

usually reproduce by binary fission

Peptidoglycan cell wall

no nucleus

Contains plasmids

Prokaryotes

rigid cell wall

no membrane bound organelles

no nucleus

survive in extreme conditions

single-celled prokaryotic organism

Reproduce by mitosis or meiosis

membrane-bound nucleus

Bacteria

Eubacteria

Morphology
Spiral

Spirillum volutans

Bacillus

Bacillus cereus

Coccus

Staphylococcus aureus

Archaea

Archaebacteria

Korachaeaota
Korarchaeum cryptofilum
Crenarchaeota
Pyrolobus fumarii
Euryarchaeota
Halobacterium salinarum

Eukarya

Fungi

Deuteromycota-Reproduce asexually in a process known as sporogenesis. They are known as imperfect fungi as their sexual stage of reproduction has not been oobserved
Aspergillus flavus
Ascomycota- reproduce asexually, reproduce by releasing haploid conidiophores and have sacs which contain spores
Amanita phalloides
Basidiomycota- reproduce sexually and asexually. It reproduces asexually using specialized structures callled condiophores and reproduces sexually in the fruiting body
Saccharomyces cerevisiae
Zygomycota- reproduces asexually using spores called sporangiospores and sexual reproduction using zygospores
Rhizopus stolonifer

Protista

Animal-like
Sporozoans

Gliding movements

Eimeria tenella

Zooflagellates

Use flagella to move

Enteromonas hominis

Ciliates

Use cilia to move

Amphorides quadrilineata

Sarcodina

Use pseudopodia to move

Amoeba Proteus

Fungi-like
Oomycota

Phytophthora infestans

Myxomycota

Fuligo septica (plasmodial slime mold)

Apicomplexa

Plasmodium falciparum

Acrasiomycota

Dictyostelium purpureum(Cellular Slime mold)

Plant-like
Chrysophyta

Golden Algae

Rhodophyta

Cyanidioschyzon merolae

Chlorophyta

Ulva lactuca

Phaeophyta

Laminaria digitata

Plantae

Seedless Vascular- reproduce using haploid spores, do not produce flowers or seeds, have stems which provide structural support
Equisetum arvense
Anglosperns- produce flowers, produce seeeds enclosed in fruit, structure and adpated to gain the most sunlight exposure
Rafflesia arnoldii
Gymnosperms-vascular tissue, seeds are stored inside fruit (ripened ovary) not considered real fruit, roots used to gather nutrients
Cycas revoluta
Bryophyta- non-vascular, found in fresh water environments, have rhizoids
Dawsonia superba

Animalia

Chordata Evolutionary Milestones Notochord pharyngeal slits Hollow dorsal nerve chord 3 embryonic cell layers Post-anal tail
Vertebrata

Agnathans

Gnathostomata

Have fur or hair which provides insulation and helps to keep us warm endothermic 4 chambered heart Have several functional internal systems which perform a variety of functions

Mammalia

Major Groupings

Nourishment is provided for the fetus directly from its mother so that it can stay in the womb for a longer period of time until it is fully developed. Superior to marsupials as the fetus is healthier due to the nourishment it receives. Fetus is safer as it does not leave the womb till it is mature unlike the undeveloped fetus of marsupials which leaves the womb early and climbs to the pouch.

Placental

Primates

Homo Sapien

Give early birth to a fetus which climbs from the birth canal to the mother's pouch It is superior as the zygote has more protection as the fetus partially develops in the mothers womb before leaving the mother's womb and eggs are easier for predators to eat as they don't move. The fetus is protected in the pouch

Marsupial

Diprotodontia

Macropus rufus

Only mammals which lay eggs Reproduce sexually

Monotremes

Monotremata

Ornithorhynchus anatinus

Have wings and feathers Light skeletal structure Most can fly Endothermic 4 chambered heart-most efficient

Aves

Falco peregrinus

adapted features for quicker movement and strong defense Air breathing animals Live only on the land scales 3 chambered exothermic

Reptilia

Python reticulatus

Live on land and in water have young have 2 chambered hearts, adults have 3 breathe through gills lungs or skin exothermic

Amphibia

Dendrobates tinctorius

bone tissues- stronger skeleton air bladder that performs hydrostatic functions exothermic

Osteichcythes

Mola mola

Jawed Fish Nostrils allowed for sense of smell skeleton primarily made of cartilage Skeleton formed to protect the organs within the body exothermic

Chrondichthyes

Carcharodon carcharias

Cephalochordata

Branchiostoma lanceolatum

Turnicata

Pyrosoma atlanticum

Echinodermata Evolutionary Milestones Deuterstome 5 part Radial Symmetry Internal Skeleton
Asterias amurensis
Arthropoda Evolutionary Milestones Hard exoskeleton made of chitin numerous jointed appendages and a segmented body Developed gills or internal airways and various systems
Myriapoda-characterized by having one pair of antenna, myriads of legs and mandibles

Chilopoda

Scolopendra gigantea

Diplopoda

Archispirostreptus gigas

Pauropoda

Pauropus amicus

Symphlya

Scutigerella immaculata

Crustacea-characterized by having mandibles and compound eyes, biramous appendages

Malacostraca

Homarus gammarus

Maxillopoda

Balanus nubilus

Branchiopoda

Artemia salina

Chelicerata-2 body segments 6 pairs of appendages: 4 pairs for walking and 2 mouth parts

Pycgnogonida

Pycnogonida indet

Merostromata

Limulus polyphemus

Arachnida

Latrodectus mactans

Hexapoda-Body divided into head, thorax, abdomen uniramous appendages; one pair of antennae, Three pairs of walking legs; most with wings, Two pairs of mouthparts: mandibles and maxillae, Most possess wings as adults Undergo Metamorphosis growing from larva to adult

Entognatha

Allacma fusca

Insecta

Megasoma elephas

Mollusca Evolutionary Milestones More advanced circulatory and digestive system Developed feet for better movement Coelom (complte body cavity)
Achatina achatina
Annelida Increasesd size and movememt Segmentation More advanced digestive system and circulatory system
Alitta virens
Nematodata Evolutionary Milestones more advanced digestive system Two openings allowed for greater efficiency Developed pseudocoelom (partail cavity)
Trichuris trichiura
Platyhelminthes Evolutionary Milestones Bilateral Symmetry
Pseudobiceros gloriosus
Cnidaria Evolutionary Milestones Developed Nervous System Developed defense mechanisms Tissues Radial Symmetry
Aequorea forskalea
Porifera Evolutionary Milestones Simplest organism Developed flagellated cell walls and a stomach
Xestospongia testudinaria