Book contents
- Frontmatter
- Contents
- Preface to the first edition
- Part 1 Introduction
- Part II The prokaryotic algae
- Part III Evolution of the chloroplast
- 3 Glaucophyta
- 4 Rhodophyta
- 5 Chlorophyta
- Part IV Evolution of one membrane of chloroplast endoplasmic reticulum
- Part V Evolution of two membranes of chloroplast endoplasmic reticulum and the Chlorarachniophyta
- Glossary
- Index
5 - Chlorophyta
- Frontmatter
- Contents
- Preface to the first edition
- Part 1 Introduction
- Part II The prokaryotic algae
- Part III Evolution of the chloroplast
- 3 Glaucophyta
- 4 Rhodophyta
- 5 Chlorophyta
- Part IV Evolution of one membrane of chloroplast endoplasmic reticulum
- Part V Evolution of two membranes of chloroplast endoplasmic reticulum and the Chlorarachniophyta
- Glossary
- Index
Summary
The Chlorophyta, or green algae, have chlorophylls a and b, and form starch with the chloroplast, usually in association with a pyrenoid. The Chlorophyta thus differ from the rest of the eukaryotic algae in forming the storage product in the chloroplast instead of in the cytoplasm. No chloroplast endoplasmic reticulum occurs around the chloroplasts.
The Chlorophyta are primarily freshwater; only about 10% of the algae are marine, whereas 90% are freshwater (Smith, 1955). Some orders are predominantly marine (Caulerpales, Dasycladales, Siphonocladales), whereas others are predominantly freshwater (Ulotrichales, Coleochaetales) or exclusively freshwater (Oedogoniales, Zygnematales). The freshwater species have a cosmopolitan distribution, with few species endemic in a certain area. In the marine environment, the green algae in the warmer tropical and semitropical waters tend to be similar everywhere in the world. This is not true of the Chlorophyta in the colder marine waters; the waters of the Northern and Southern hemispheres have markedly different species. The warmer waters near the equator have acted as a geographical barrier for the evolution of new species and genera.
Cell structure
In the Chlorophyta, microtubular hairs do not occur on the flagella, although fibrillar hairs (Chlamydomonas, Fig. 1.7(b)) and Golgi-produced scales (Pyramimonas (Fig. 5.10), are present in some genera.
Cell walls usually have cellulose as the main structural polysaccharide, although xylans or mannans often replace cellulose in the Caulerpales (Huizing et al., 1979).
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- Phycology , pp. 139 - 238Publisher: Cambridge University PressPrint publication year: 2008
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