phycology-algal classification, thallus organization, reproduction
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Evolutionary history
- 1. Land plants evolved from green algae The closest living relative of land plants today is a group of green algae known as charophyceans. Charophyceans share many characteristics with modern land plants, suggesting that Charophyceans are the sister group to all land plants. Morphological evidence: 1. Rosette-shaped cellulose synthesizing complexes 2. Peroxisome enzymes 3. Structure of flagellated sperm 4. Formation of a phragmoplast
- 2. Land plants evolved from green algae Coleochaete is probably the closest living relative to the extinct algal ancestor of land plants. It provides a snapshot of what the true ancestor to land plants might have looked like. It also demonstrates how the transition to land might have happened.
- 3. Land plants evolved from green algae Coleochaete exhibits many characteristics that would make a transition from an aquatic to a terrestrial habitat possible.
- 4. Land plants evolved from green algae Choleochaete More advanced disk-shaped ones are able to live in splash zones, often in the presence of air. The more compact thallus on the right is better equipped to survive on land.
- 5. Land plants evolved from green algae Coleochaete Why is Coleochaete evolutionarily important? May be an intermediate form in the evolution of sporic meiosis from zygotic meiosis.
- 6. Land plants evolved from green algae Coleochaete Why is Coleochaete evolutionarily important? Haploid cells produce lignin-like compunds with antimicrobial properties; zygote is protected. Ingrowths (found only on cells adjacent to zygote) help increase surface area for metabolite transfer.
- 7. Land plants evolved from green algae Coleochaete Why is Coleochaete evolutionarily important? What if a “pampered” zygote delayed meiosis and began dividing mitotically while still attached to the haploid plant?? It would be a small sporophyte dependent on the haploid plant (which is now the gametophyte).
- 8. Land plants evolved from green algae It is no wonder that plants were successful on land; terrestrial life offered many benefits that the newly adapting organisms could not receive in their previous watery environment. • unfiltered sunlight • more CO2 • soil rich in nutrients and minerals • few herbivores and pathogens (at first)
