reproductive differences between gymnosperms and angiosperms: gymnosperms : 1) ovules attached to a megasporophyll

1. reproductive differences between gymnosperms and angiosperms: gymnosperms: 1) ovules attached to a megasporophyll - megasporophylls often arranged in a megastrobilus (ovulate cone)

2. 2) a) megagametophytes consist of many cells; b) eggs produced in archegonia

3. 3) microsporangia attached to surface of a microsporophyll - microsporophylls often arranged in a microstrobilus (staminate cone)

4. 4) microgametophytes are very small - produce sperm (not in antheridia) - are pollen grains 5) pollination by wind dispersal of pollen 6) pollen tube grows to an ovule and sperm is released - sperm have flagella and swim to egg, but not through external water 7) seeds develop on surface of megasporophylls - seeds are not enclosed (“naked”) gymnosperm = naked seed

5. CHARACTERISTIC GYMNOSPERMS Placement of ovules Attached to megasporophylls, in a megastrobilus Size of megagametophyte Many cells Archegonia Present Placement of microsporangia (pollen sacs) Attached to microsporophylls, in a microstrobilus Size of microgametophytes Very small; several cells Antheridia Absent Pollination Mostly by wind dispersal of pollen Sperm Have flagella; swim through ovule to reach egg Seed location On surface of megasporophylls; not enclosed (naked)

6. angiosperms: 1) ovules (and seeds) are enclosed within ovaries; - part of flower structure angiosperm = “vessel seed” 2) megagametophytes consist of only a few cells - produce eggs, but not in archegonia 3) microsporangia carried on stamens; part of flower structure 4) sperm do not have flagella 5) double fertilization occurs

7. CHARACTERISTIC GYMNOSPERMS ANGIOSPERMS Placement of ovules Attached to megasporophylls, in a megastrobilus Located in an ovary, within a flower Size of megagametophyte Many cells A few cells Archegonia Present Absent Placement of microsporangia (pollen sacs) Attached to microsporophylls, in a microstrobilus Located on a stamen, within a flower Size of microgametophytes Very small; several cells Extremely small, a few cells Antheridia Absent Absent Pollination Mostly by wind dispersal of pollen Various mechanisms - wind, insect, bat, rodent, etc. Sperm Have flagella; swim through ovule to reach egg No flagella; deposited at egg Seed location On surface of megasporophylls;not enclosed in a fruit ("naked") Located enclosed in a fruit that develops from the ovary Double fertilization Absent Present

8. Flower Structure: flower stalk (peduncle) and floral appendages attached to it receptacle floral appendages = sterile appendages and fertile appendages sterile appendages = sepals and petals sepals petals

9. fertile appendages = stamens and carpels stamens - are “specialized microsporophylls” - include: filament anther

10. carpels “modified megasporophylls”? - produce a tubular pistil - each has a stigma ; an ovary; a style

11. 5) double fertilization - megagametophyte of angiosperms usually has seven cells - one egg, two synergids, three antipodals - each with one 1n nucleus - one central cell containing TWO 1n nuclei = polar nuclei

12. pollination - pollen is transferred from pollen sac to a stigma pollen germination pollen tube grows through style, to an ovule - releases two sperm into the ovule 1) one sperm (1n) fuses with the egg (1n) - produces zygote (2n) 2) second sperm fuses with two polar nuclei -produces a triploid (3n) primary endosperm nucleus

14. following double fertilization: - zygote develops into embryo (within the ovule) - the primary endosperm nucleus produces endosperm tissue (all cells with 3n nuclei) - will provide nutrients to the embryo - integuments harden to form seed coat ** produces a seed, consisting of: - seed coat - endosperm (not present in gymnosperms) - sometimes a perisperm - embryo

15. In flowering plants, ovules are enclosed in ovaries - ovaries undergo changes as seeds form - produces a fruit - will usually enlarge may become fleshy may become dry, or hard

16. fruit - provides additional protection for the embryo - contributes to seed dispersal

17. “typical” flower structure varies with species common variations include variation in appendages: # of each type size color shape other variations: placentation type: placenta placentation

18. parietal placentation: - ovules attached to side walls of ovary - ovary with one or more locules

19. axile placentation: - ovules attached to partitioning walls in ovary - ovary has two or more locules

20. free central placentation: - ovules attached to central column of tissue - ovary has one locule

21. basal placentation: - ovule(s) attached to base of ovary - ovary has one locule

22. fusion of various floral appendages coalescence e.g. formation of tubular corolla adnation

23. variations in ovary placement: hypogynous flowers - ovary is superior - other appendages attached lower

24. epigynous flowers - receptacle tissue surrounds ovary - other appendages attached above the ovary - ovary is inferior

25. perigynous flowers - basal portion of sepals, petals, and stamens form structure that surrounds the ovary - ovary is superior

26. variations related to presence or absence of floral appendages: complete flowers incomplete flowers perfect flowers imperfect flowers staminate flower carpellate flower

27. species with imperfect flowers may be monoecious or dioecious: monoecious species dioecious species

28. Embryo structure - seed and embryo structure also varies with species - embryo includes a root-shoot axis, and one or two cotyledons - root-shoot axis consists of a) the radicle b) the plumule - includes epicotyl and embryonic leaves attached c) the hypocotyl

29. - one or two cotyledons attached at hypocotyl/epicotyl junction - two classes of flowering plants - dicots, have two cotyledons - monocots, have one cotyledon - cotyledons are food-storage organs - may remain small - may become thick and fleshy

30. monocot embryos include additional protective tissue layers: - the coleoptile - the coleorhiza