The Monocots: Part 2 Commelinoid Monocots Spring 2010
Phylogeny of Monocot Groups Acorales Alismatales Asparagales Liliales Dioscoreales Pandanales Arecales Poales Commelinales Zingiberales Basal “Petaloid” Commelinoid
Commelinoid characters Special type of epicuticular wax Starchy pollen UV-fluorescent compounds in the cell walls Starchy endosperm (except in the palms) Lots of molecular support
Commelinoid Monocot Groups Order Arecales - Palms Arecaceae (Palmae) Order Poales - Grasses - Bromeliads Cat-tails Rushes, Sedges, and Grasses Bromeliaceae Typhaceae Juncaceae Cyperaceae Poaceae (Gramineae) Order Zingiberales – Ginger, banana, and allies (no required families)
Commelinoid Monocots: Arecales: Arecaeae (Palmae) Widespread throughout tropical and warm temperate regions “Trees” or “shrubs”, typically unbranched Diversity: ca. 2,780 in 200 genera Flowers: usually sessile, in compound-spicate inflorescences, these subtended by a bract (spathe); ovule 1 per locule Significant features: Leaves alternate or spiral, blades plicate, splitting in a pinnate or palmate manner Special uses: coconut (Cocos nucifera), date (Phoenix dactylifera), rattan (Calamus), oils and waxes, ornamentals Required taxa: *family only * Change from lab manual
Arecaceae Numerous small flowers Spathes + compound-spicate inflorescence 3 sepals + 3 petals Superior ovary (carpel fusion varies) Drupe Unbranched trunks Big leaves on top!
Arecaceae – The Palm Family
Arecaceae – Cocos nucifera
Arecaceae Economic plants and products: Phoenix dactylifera Dates
Characters of Poales Silica bodies (in silica cells) in the epidermis Styles strongly branched Loss of raphide (needle-like) crystals Much molecular support for monophyly Wind pollination has evolved several times independently within the order Ecologically very important
Commelinoid Monocots—Poales: Bromeliaceae (The Pineapple/Bromeliad Family) Tropical to temperate regions of the Americas Predominantly epiphytic herbs (“tank” plants) Diversity: ca. 1,520 species in 51 genera Flowers: radial, perianth differentiated into calyx and corolla, borne in axils of often brightly colored bracts; inflorescences spicate or paniculate; stigmas 3, usually twisted; seeds often winged or with tufts of hair Significant features: leaves with water absorbing peltate (or stellate) scales Special uses: pineapple (Ananas) Required taxa: *Tillandsia (Spanish moss) *change from lab manual
Bromeliaceae
Bromeliaceae: Tillandsia (Spanish moss)
Bromeliaceae – Ananas comosus Fruit type?
Commelinoid Monocots—Poales: Typhaceae (The Cattail Family) Widely distributed, especially in Northern Hemisphere Aquatic & wetland rhizomatous herbs Diversity: 28 species in 2 genera Flowers: small, unisexual; separated spatially on dense, compact spicate or globose-clustered inflorescences; placentation apical Significant features: rhizomatous; long slender leaves; characteristic inflorescence Special uses: ornamental aquatics Required taxa: Typha
Typhaceae - Typha
Commelinoid Monocots—Poales: Juncaceae (The Rush Family) Worldwide, mostly temperate regions; wet or damp habitats Rhizomatous herbs, stems round and solid Diversity: 400 species in 6 genera Flowers: tepals 6, distinct; carpels 3 in superior ovary; stamens 6; fruit a loculicidal capsule Significant features: leaves 3-ranked, sheaths usually open Special uses: leaves used to weave rush baskets; some ornamentals Required taxa: Juncus
Juncaceae
Juncaceae: Juncus -cymose inflorescences -leaf sheaths open -leaf blades flat, grooved, or cylindrical
Commelinoid Monocots—Poales: Cyperaceae (The Sedge Family) Worldwide, usually in damp or semi-aquatic sites Rhizomatous herbs, stems usually triangular in cross section Diversity: 4,500 species in 104 genera Flowers: with subtending bract; tepals absent or reduced to 3-6 scales or hairs; stamens 1-3; carpels 2-3 in superior ovary; fruit an achene (nutlet) Significant features: Inflorescence a complex group of spikelets; leaf sheaths closed, ligule lacking; silica bodies conical Special uses: Papyrus used originally for paper; “water chestnuts”and a few other rhizomes edible, leaves used for weaving; some ornamentals. Required taxa: Carex, Cyperus
Cyperaceae versus Juncaceae: Field Character “Sedges have edges… …and rushes roll.”
Cyperaceae
Cyperaceae Flowers: Arranged in spikelets Reduced Wind-pollinated flowers Subtended by bract Reduced/absent perianth flower + subtending bract = floret flower spikelet
Cyperaceae Fruit type is the achene: very important in the taxonomy of the family. Eleocharis Rhynchospora (note bristle perianth) Cyperus
Cyperaceae: Cyperus
Cyperaceae: Carex -presence of the perigynium (a sac-like bract surrounding the female flower) in addition to the subtending bract -leaves usually with a ligule
Commelinoid Monocots—Poales: Poaceae (Gramineae) (The Grass Family) Cosmopolitan Primarily herbs, often rhizomatous; “trees” in most bamboos; stems are called culms Diversity: 10,000 species in ca. 650 genera Flowers: small, perianth parts reduced to lodicules; each flower enclosed by two bracts (lemma and palea) = floret; stamens typically 3; carpels 3, but appearing as 2; fruit a caryopsis Significant features: 1-many florets aggregated into spikelets, each with usually 2 empty bracts (glumes) at the base; leaf with a ligule Special uses: many – grains, turf, fodder/forage, structural uses (e.g., bamboo). Required taxa: *Poa, *Andropogon *change from lab manual
Economic importance bamboo sugar cane Zea mays weeds Oryza sativa Triticum aestivum
Ecological importance
Poaceae: vegetative structure ligule
Poaceae: spikelet and flower structure
Anatomy of the Caryopsis (Grain) The fruit wall (pericarp) is completely fused to the seed coat. Endosperm (3N; triploid) contains the bulk of starch storage in the seed. The embryo is a pre-formed grass plant, with apical meristems (for both shoot and root) and protective organs (coleoptile and coleorhiza) which emerge first during germination.
Origin of grasses ca. 70-80 mya in southern- hemisphere forests early grasses Origin of grasses ca. 70-80 mya in southern- hemisphere forests
Origin of grasses ca. 70-80 mya in forests Anomochlooideae Pharoideae Puelioideae Bamboos (Bambusoideae) Origin of grasses ca. 70-80 mya in forests Bluegrasses (Pooideae) Rices (Ehrhartoideae) Panicgrasses (Panicoideae) Major radiation in Oligocene- Miocene epochs into open habitats Needlegrasses (Aristidoideae) Lovegrasses (Chloridoideae) + Micrairoideae Stamens reduced to 3 Reeds (Arundinoideae) Oatgrasses (Danthonioideae)
C4 photosynthetic pathway (in warm season grasses) is advantageous under higher temperatures, higher light, and less water
Dispersal!
Poaceae (Gramineae)
Poaceae: Poa -cool season -leaf tip boat-shaped -inflorescence branched from a main axis -spikelets solitary -glumes papery -florets 3-several, often with a cottony web at the base
Poaceae: Andropogon -warm season -leaf midrib whitish, prominent -2-many branches per inflorescence, often digitate -spikelets paired -glumes tough, leathery
For more information and images: http://www. eeob. iastate For more information and images: http://www.eeob.iastate.edu/research/iowagrasses/ The Grasses of Iowa
Grasses, Sedge, Rushes! Stem terete, hollow, or solid, jointed Leaf ranks 2 Leaf sheath Open, ligule Inflor: Spikelets Perianth: Lodicules Fruit: Caryopsis Triangular, solid, not jointed 3 Closed Spikelets None or bristles/scales Achene Terete, solid, not jointed 3 Open Cymose 6 chaffy tepals Capsule
“Graminoids” - Comparison
Commelinales 5 families, 780 species, widespread in various habitats
Commelinoid Monocots: Zingiberales Large herbs with vessels more or less limited to the roots Silica cells present in the bundle sheaths Leaves clearly differentiated into a petiole and blade Leaf blade with pinnate venation, often tearing between the second-order veins Leaf blade rolled into a tube in bud Petiole with enlarged air canals Flowers bilateral (or irregular) Pollen lacking an exine Ovary inferior Seeds arillate and with perisperm 8 families and nearly 2000 species Must be able to recognize the order!
Zingiberales diversity
Musaceae Musa