Respuesta :
rise of chemoautotrophs and photoautotrophs
rise of cyanobacteria - a specific type of phototroph that shares homology with chloroplast genome
rise of eukaryotes
rise of multicellularity
rise of bryophytes - mosses
rise of gymnosperms - conifers, cycads & ginkgo
rise of angiosperms - flowering plants
hope it helps
rise of cyanobacteria - a specific type of phototroph that shares homology with chloroplast genome
rise of eukaryotes
rise of multicellularity
rise of bryophytes - mosses
rise of gymnosperms - conifers, cycads & ginkgo
rise of angiosperms - flowering plants
hope it helps
Answer;
- rise of chemoautotrophs and photoautotrophs
- rise of cyanobacteria - a specific type of phototroph that shares homology with chloroplast genome
- rise of eukaryotes
- rise of multicellularity
- rise of bryophytes - mosses
- rise of gymnosperms - conifers, cycads & ginkgo
- rise of angiosperms - flowering plants
Explanation;
Plants are multicellular organisms that have evolved the ability to live on land. The vast majority can carry out photosynthesis, but they are not the only organisms with this ability: many protists can photosynthesize too, as can several important groups of bacteria.
Plants are thought to have evolved from a class of freshwater green algae called the charophytes. Two particular groups of charophyte, the Coleochaetales and the Charales, resemble the earliest land plants (bryophytes) in a variety of ways, including the structure of their chloroplasts and sperm cells, and the way their cells divide during mitosis .
