1. Flowers and Their Evolution Spring 2010

2. Flower = a short, determinate shoot bearing highly modified leaves, some of which are fertile (i.e., bearing either microsporangia or megasporangia), with the megasporangia in carpels

3. Flower REPRODUCTIVE STRUCTURE – Evolutionary requirement to reproduce by sexual means. Pollen transfer and seed dispersal needed. MODIFIED FOLIAR APPENDAGES – all function together to form the reproductive organ known as the FLOWER. MODIFICATIONS OF LEAVES – All floral organs are modified LEAVES. Four terminal WHORLS of modified leaves: - Two outermost whorls are sterile (non-meiotic tissues) - Two innermost whorls (sporophylls) are “fertile” with tissues capable of undergoing meiosis SPOROPHYLLS – those modified leaves with meiotic capacity. - Microsporophylls – stamens – produce pollen in anthers - Megasporophylls – carpels – produce eggs in ovules

4. Fig. 4.16 from the text

5. Floral Whorls Attached to RECEPTACLE Sepals - Calyx Petals - Corolla Stamens (anthers + filaments) Androecium (andros = male; -oecium = house) “Pistil” – carpel(s) [fused or not] Gynoecium (gynos = female; -oecium = house)

6. Floral Parts: Major whorls pistil - gynoecium stamens - androecium petals - corolla sepals - calyx receptacle

7. youngleaves flowerbud Sepals and petals are relatively leaf-like.

8. Evolution of the Androecium DERIVED FROM MODIFIED LEAVES - Microsporangia (meiosis  microspores  pollen grains) on lamina originally INCREASING LEVELS OF REDUCTION - Lamina becomes filament - Sporangial tissue becomes anther wall - Provides for release of pollen CAN BE A SINGLE WHORL OR MULTIPLE WHORLS - Tremendous variation in flowering plants. - Often associated with specific type of pollinator.

9. laminar stamen Stamen evolution

10. Stamen diversity

11. Evolution of the Carpel MODIFICATION OF MEGASPOROPHYLL - Evolution of megasporophyll structure traced back to seed ferns – 200 to 300 mybp LEAF WITH MARGINAL MEIOTIC ZONES FOLDS - Ovules located at margins of sporophylls. - Lamina curves inward (toward the floral axis - adaxially) - Carpel is formed by folding – conduplicate - Margins fuse, enclosing ovules - Carpel(s) = gynoecium FUSION OF CARPELS - Unfused (separate) carpels - apocarpous - Fused (united) carpels - syncarpous POSITION OF THE GYNOECIUM relative to other floral whorls is important in describing floral structures. PLACEMENT OF OVULES (placentation) within the gynoecium is also important; shows evolutionary origins of the carpel.

12. The Ovule = integumented megasporangium integuments femalegametophyte(derived from a single spore) sporangium

13. Carpel evolution

14. Folding of megasporophyll to form simple carpel S = suture; formed by fusion of leaf margins; receptive to pollen (Receptacle located below) below) Folding of one megasporophyll

15. Simple Carpel – One Megasporophyll

16. Apocarpy – Separate Carpels E.g., Ranunculus, Magnolia, Liriodendron

17. Fig. 4.19 from the text

18. Syncarpous gynoecia E.g., Euphorbia

19. Syncarpy – Fused Carpels

20. Fig. 4.21 from the text

21. Superior Citrus sp.

22. Perigynous—floral cup or hypanthium Rosa

23. Inferior Vaccinium sp.

24. Ovules and Placentation OVULES CONTAIN THE MEGAGAMETOPHYTE - Provides for fertilization of egg cell in megagametophyte and protection during development. - Ovule matures into the SEED. ATTACHMENT OF THE OVULES VIA FUNICULUS - Analogous to the mammalian “umbilical cord” - Point of attachement on inner ovary wall is the PLACENTA - Can vary depending on type of flower. PLACENTATION IS OFTEN DIAGNOSTIC - Plant families typically have one placentation type. - Often best seen with cross section through ovary. PLACENTATION REFLECTS EVOLUTIONARY DEVELOPMENT - Fusion of carpels, presence of vascular bundles, etc. can support hypotheses about evolution of particular flower structures.

25. Fig. 4.22 from the text

26. Floral Symmetry RadialBilateral Zygomorphic Actinomorphic

27. Floral Symmetry RadialBilateral Zygomorphic Actinomorphic

28. Adnation: Fusion of different parts Stamens adnate to petals Stamens adnate to gynoecium

29. Connation: Fusion of similar parts Fusion of filaments into a staminal tube

30. Interpretation of Floral Structures OBSERVE STRUCTURES IN EACH WHORL - How many parts are present in the calyx? Corolla? - Describe the androecium, then the gynoecium. DETERMINE CONDITION OF THE FLOWER - Hypogynous? Perigynous? Epigynous? GYNOECIUM - Apocarpous? Syncarpous? If so, how many carpels? - Placentation? Position of stigma relative to other parts. ADNATION or CONNATION? - Fusion of floral parts can sometimes be diagnostic. UNUSUAL OR REMARKABLE FLORAL STRUCTURES? - Specializations for pollination?