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Aarni Auerniitty

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plant evolution botany plant biology plant life

Summary

This presentation details the evolution of plants, from early mosses to the more complex angiosperms. It covers key adaptations and reproductive strategies at each stage. Diagrams and examples are included throughout.

Full Transcript

Evolution of plants Aarni Auerniitty Mosses (bryophytes)  Oxygen saturation reached 20 % in the atmosphere 460 million years ago  more effective ozone layer  Multicellular algae adapted to endure dry conditions in tide beaches  Mosses  Most mosses are thallophytes (sekovar...

Evolution of plants Aarni Auerniitty Mosses (bryophytes)  Oxygen saturation reached 20 % in the atmosphere 460 million years ago  more effective ozone layer  Multicellular algae adapted to endure dry conditions in tide beaches  Mosses  Most mosses are thallophytes (sekovartinen)= leaves, roots and stem can’t be told apart  Mosses absorb water and nutrients with all their parts, primitive roots don’t reach deep into soil  humid environments required  Can hibernate over dry periods  Grow from the top forming peat underneath Pteridophytes  Evolved around 400 mya, first vascular plants  Larger and more complex than mosses  Ferns (Polypodiopsida, saniaiset), horsetails (Equisetum, kortteet) and clubmosses (Lycopodiaceae, lieot)  Adaptations  Roots for water and nutrient intake  Leaves for photosynthesizing  Stem for support and height  Vascular tissue for transport  Thicker surface to protect from drying  Stomata (ilmaraot) for controlled gas exchange and water evaporation Cryptogam reproduction  Bryophytes and pteridophytes form the group of cryptogams (itiökasvit)  Many cryptogams cycle between asexual and sexual reproduction  Alteration of generations  Spores spread from sporangium (itiöpesäke)  Ferns form a prothallus (alkeisvarsikko) from spores where the fertilisation occurs Gymnosperms  As climate turned colder and more arid gymnosperms (paljassiemeniset) took over pteridophytes  Key adaptations  Seed  Always sexual reproduction  Extremely durable, contains initial energy reserve for the seedling  Cuticle: waxy layer to reduce water loss  Pollen  Wind pollination, reproduction not dependant on water Gymnosperm reproduction  Pollen formed in stamen (hede)  fertilises eggs in pistil (emi)  Seeds form on top of carpels (emilehti) and mature inside cones  Relatively vulnerable Flowering plants (angiosperms)  Evolved soon after gymnosperms, but got more numerous later  Now the most common group of plants  Key adaptation compared to gymnosperms was the flower  Developing embryo is protected by ovary  Attracting pollinators to spread pollen and seeds  Nectar and fruit Angiosperm reproduction  Fertilization occurs as pollen reaches the stigma (luotti) of pistil  Often using insects, birds or mammals as vector  A pollen tube grows from the pollen through pistil into the ovary  Double fertilization = in addition of the egg being fertilized also a polar nucleus is fertilized causing it to develop into nutrition reserve  Seeds are spread through multitude of ways  Hydraulic pressure  Hooks  Fruit  Wind Vascular plants  Everything but algae and mosses  Water is transferred from soil through roots, stem and leaves  Root hairs increase area of roots  Osmosis helps water get absorbed --> root pressure  Transpiration pull through stomata  Pulls the water pillar through the plant  Capillary action (water cohesion and adhesion) in the thin tubes of xylem helps water travel against gravity  Vascular bundles in vascular tissue are used in transportation  Xylem transports water and nutrients (tracheids/vessels), phloem products from photosynthesis (sieve tubes)  Woody plants widen through growth in vascular cambium (between phloem and xylem)

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