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20-4 Plantlike Protists: Red, Brown, and Green Algae

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1 20-4 Plantlike Protists: Red, Brown, and Green Algae

2 20-4 Plantlike Protists: Red, Brown, and Green Algae
The three phyla of algae that are largely multicellular are:

3 Red Algae Red algae are able to live at great depths due to their efficiency in harvesting light energy. Red algae contain chlorophyll a and reddish accessory pigments called Phycobilins absorb blue light, enabling red algae to live deep in the ocean.

4 Brown Algae Brown algae are the largest and most complex of the algae.
Brown algae contain chlorophyll a and c, as well as a brown accessory pigment, Brown algae are the largest and most complex of the algae. All are multicellular and most are marine, commonly found in cool, shallow coastal waters of temperate or arctic areas.

5 Brown Algae The body of Fucus, a common brown algae, contains:
A ________ that attaches the alga to rocks. A flattened stemlike structure called a Leaflike structures called Gas-filled bladders that keep the alga afloat and upright. Blades Bladder Brown algae contain chlorophyll a and c, plus fucoxanthin, a brown pigment. Stipe Holdfast

6 Green Algae Green algae share many characteristics with plants, including their photosynthetic pigments and cell wall composition. Scientists hypothesize that the ancestors of modern land plants looked like certain species of living green algae.

7 Green Algae Green algae live in fresh and salt water, and moist land areas. Many species live most of their lives as single cells. Others form colonies, groups of similar cells that are joined together but show few specialized structures. A few are multicellular and have specialized structures.

8 Reproduction in Green Algae
The life cycles of many algae include both a diploid and a haploid generation. Switching between haploid and diploid stages during a life cycle is known as Many alga also shift between sexual and asexual reproduction.

9 Reproduction in Green Algae
We are going to examine Chlamydomonas and Ulva The unicellular Chlamydomonas spends most of its life in the haploid stage.

10 Reproduction in Chlamydomonas
zoospores Release of haploid cells Zygote Pairing of plus and minus gametes Mature cell The green alga Chlamydomonas reproduces asexually by producing zoospores and sexually by producing zygotes, which release haploid gametes.

11 Reproduction in Chlamydomonas
Asexual Reproduction in Chlamydomonas In suitable living conditions, this haploid cell reproduces asexually, producing cells called by mitosis. The green alga Chlamydomonas reproduces asexually by producing zoospores and sexually by producing zygotes, which release haploid gametes.

12 Reproduction in Chlamydomonas
If conditions become unfavorable, Chlamydomonas can also reproduce sexually. The green alga Chlamydomonas reproduces asexually by producing zoospores and sexually by producing zygotes, which release haploid gametes.

13 Reproduction in Chlamydomonas
Haploid cells undergo mitosis, but release gametes instead of zoospores. The zoospores are of two opposite mating types—plus (+) and minus (-). Pairing of plus and minus gametes The green alga Chlamydomonas reproduces sexually by producing zygotes, which release haploid gametes.

14 Reproduction in Chlamydomonas
The plus and minus gametes form pairs and fuse, forming a The green alga Chlamydomonas reproduces sexually by producing zygotes, which release haploid gametes.

15 Reproduction in Chlamydomonas
The zygote grows a thick protective wall. Within this protective wall, Chlamydomonas can survive conditions that otherwise would kill it.

16 Reproduction in Chlamydomonas
When conditions again become favorable, the zygote grows, divides by meiosis, and produces four haploid cells.

17 Reproduction in Green Algae
Reproduction in Ulva  The life cycle of the green alga Ulva involves alternation of generations. Ulva are , or gamete-producing plants.

18 Reproduction in Ulva Mitosis Meiosis Gametes fuse Zygote Sporophyte
Spores Fertilization Gametes The life cycles of most algae include both diploid and haploid generations. The multicellular green alga Ulva exhibits alternation of generations. The haploid generation produces a diploid generation. Then, the diploid generation produces a haploid generation. The two generations are multicellular and virtually indistinguishable from each other. Mitosis Female gametophyte Male gametophyte

19 Reproduction in Ulva The haploid phase of Ulva produces male and female gametes. Fertilization Mitosis The life cycles of most algae include both diploid and haploid generations. The multicellular green alga Ulva exhibits alternation of generations. The haploid generation produces a diploid generation. Then, the diploid generation produces a haploid generation. The two generations are multicellular and virtually indistinguishable from each other.

20 Reproduction in Ulva When male and female gametes fuse, they produce a diploid zygote cell, which grows into a diploid multicellular Ulva. The life cycles of most algae include both diploid and haploid generations. The multicellular green alga Ulva exhibits alternation of generations. The haploid generation produces a diploid generation. Then, the diploid generation produces a haploid generation. The two generations are multicellular and virtually indistinguishable from each other. Zygote Sporophyte Gametes fuse

21 Reproduction in Ulva The diploid Ulva undergoes meiosis to produce haploid reproductive cells called MEIOSIS The life cycles of most algae include both diploid and haploid generations. The multicellular green alga Ulva exhibits alternation of generations. The haploid generation produces a diploid generation. Then, the diploid generation produces a haploid generation. The two generations are multicellular and virtually indistinguishable from each other. Spores

22 Reproduction in Ulva Each spore can grow into a new individual without fusing with another cell. Because the diploid Ulva produces spores it is known as a , or spore-producing organism. MEIOSIS Spores The life cycles of most algae include both diploid and haploid generations. The multicellular green alga Ulva exhibits alternation of generations. The haploid generation produces a diploid generation. Then, the diploid generation produces a haploid generation. The two generations are multicellular and virtually indistinguishable from each other.

23 Ecology of Algae Algae produce half of Earth’s oxygen through photosynthesis. Algae is found in sushi, ice cream, and other foods. Chemicals from algae are used to make plastics, waxes, transistors, deodorants, paints, lubricants, and artificial wood. Agar thickens nutrient mixtures in scientific labs.

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