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Biologie végétale les Bryophytes (botanique)
Biologie végétale les Bryophytes (botanique)
◇don Paypal : https://paypal.me/AYYOUBLamsaf?locale.x=fr_XC
Biologie végétale
cours de botanique chapitre des bryophytes
Chapitre : Les cormophytes / Les Bryophytes
Généralité sur les Bryophytes
Définition des bryophytes
Caractéristiques des Bryophytes
Classification des Bryophytes
Appareil végétatif des bryophytes
Appareil reproducteur des Bryophytes
Cycle de vie des Bryophytes
Gamétange et sporange des Bryophytes
Gamétophyte et sporophyte des Bryophytes
published: 14 Mar 2019
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Botanique/Tom2: les Embryophytes/ partie 1
Partie 1
published: 25 Sep 2020
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Plant | Diversity | Evolution | Embryophytes | Fossils
Plant | Diversity | Evolution | Embryophytes | Fossils
Plant
Diversity
The table below shows some species count estimates of different green plant (Viridiplantae) divisions. It suggests there are about 300,000 species of living Viridiplantae, of which 85–90% are flowering plants. (Note: as these are from different sources and different dates, they are not necessarily comparable, and like all species counts, are subject to a degree of uncertainty in some cases.)
The naming of plants is governed by the International Code of Nomenclature for algae, fungi, and plants and International Code of Nomenclature for Cultivated Plants (see cultivated plant taxonomy).
Evolution
The evolution of plants has resulted in increasing levels of complexity, from the earliest algal mats, through bryophytes, ...
published: 31 Dec 2018
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Plants
Life on Earth 009 - Plants
Paul surveys the Kingdom Plantae. He begins with a brief description of the phylogeny of land plants. He then describes the defining characteristics of plants, including cell walls, embryophytes, alternation of generation and photosynthesis. He briefly describes the sporophyte and the gametophyte. He finishes with brief discussion of plant evolution and includes major divisions, like bryophytes, ferns, gymnosperms, and angiosperms.
Intro Music Atribution
Title: I4dsong_loop_main.wav
Artist: CosmicD
Link to sound: http://www.freesound.org/people/CosmicD/sounds/72556/
Creative Commons Atribution License
published: 10 Apr 2012
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Embryophyte
Provided to YouTube by DistroKid
Embryophyte · MetaVoid
Heliosophist
℗ MetaVoid
Released on: 2018-10-19
Auto-generated by YouTube.
published: 18 Oct 2018
-
Embryophyta includes :-
Embryophyta includes :-
published: 20 Feb 2020
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Lab #4 Embryophytes
Chapters:
0:00 - Introduction
04:33 - Embryophytes
07:24 - Bryophytes
20:09 - Tracheophytes
20:38 - Lycophyta
27:09 - Monilophytes
33:46 - Lab #4 Exercises & Recap
published: 22 Feb 2021
17:15
Biologie végétale les Bryophytes (botanique)
Biologie végétale les Bryophytes (botanique)
◇don Paypal : https://paypal.me/AYYOUBLamsaf?locale.x=fr_XC
Biologie végétale
cours de botanique chapitre des b...
Biologie végétale les Bryophytes (botanique)
◇don Paypal : https://paypal.me/AYYOUBLamsaf?locale.x=fr_XC
Biologie végétale
cours de botanique chapitre des bryophytes
Chapitre : Les cormophytes / Les Bryophytes
Généralité sur les Bryophytes
Définition des bryophytes
Caractéristiques des Bryophytes
Classification des Bryophytes
Appareil végétatif des bryophytes
Appareil reproducteur des Bryophytes
Cycle de vie des Bryophytes
Gamétange et sporange des Bryophytes
Gamétophyte et sporophyte des Bryophytes
https://wn.com/Biologie_Végétale_Les_Bryophytes_(Botanique)
Biologie végétale les Bryophytes (botanique)
◇don Paypal : https://paypal.me/AYYOUBLamsaf?locale.x=fr_XC
Biologie végétale
cours de botanique chapitre des bryophytes
Chapitre : Les cormophytes / Les Bryophytes
Généralité sur les Bryophytes
Définition des bryophytes
Caractéristiques des Bryophytes
Classification des Bryophytes
Appareil végétatif des bryophytes
Appareil reproducteur des Bryophytes
Cycle de vie des Bryophytes
Gamétange et sporange des Bryophytes
Gamétophyte et sporophyte des Bryophytes
- published: 14 Mar 2019
- views: 81998
11:28
Plant | Diversity | Evolution | Embryophytes | Fossils
Plant | Diversity | Evolution | Embryophytes | Fossils
Plant
Diversity
The table below shows some species count estimates of different green plant (Viridipla...
Plant | Diversity | Evolution | Embryophytes | Fossils
Plant
Diversity
The table below shows some species count estimates of different green plant (Viridiplantae) divisions. It suggests there are about 300,000 species of living Viridiplantae, of which 85–90% are flowering plants. (Note: as these are from different sources and different dates, they are not necessarily comparable, and like all species counts, are subject to a degree of uncertainty in some cases.)
The naming of plants is governed by the International Code of Nomenclature for algae, fungi, and plants and International Code of Nomenclature for Cultivated Plants (see cultivated plant taxonomy).
Evolution
The evolution of plants has resulted in increasing levels of complexity, from the earliest algal mats, through bryophytes, lycopods, ferns to the complex gymnosperms and angiosperms of today. Plants in all of these groups continue to thrive, especially in the environments in which they evolved.
An algal scum formed on the land 1,200 million years ago, but it was not until the Ordovician Period, around 450 million years ago, that land plants appeared. However, new evidence from the study of carbon isotope ratios in Precambrian rocks has suggested that complex photosynthetic plants developed on the earth over 1000 m.y.a. For more than a century it has been assumed that the ancestors of land plants evolved in aquatic environments and then adapted to a life on land, an idea usually credited to botanist Frederick Orpen Bower in his 1908 book "The Origin of a Land Flora". A recent alternative view, supported by genetic evidence, is that they evolved from terrestrial single-celled algae. Primitive land plants began to diversify in the late Silurian Period, around 420 million years ago, and the results of their diversification are displayed in remarkable detail in an early Devonian fossil assemblage from the Rhynie chert. This chert preserved early plants in cellular detail, petrified in volcanic springs. By the middle of the Devonian Period most of the features recognised in plants today are present, including roots, leaves and secondary wood, and by late Devonian times seeds had evolved. Late Devonian plants had thereby reached a degree of sophistication that allowed them to form forests of tall trees. Evolutionary innovation continued in the Carboniferous and later geological periods and is ongoing today. Most plant groups were relatively unscathed by the Permo-Triassic extinction event, although the structures of communities changed. This may have set the scene for the evolution of flowering plants in the Triassic (~200 million years ago), which exploded in the Cretaceous and Tertiary. The latest major group of plants to evolve were the grasses, which became important in the mid Tertiary, from around 40 million years ago. The grasses, as well as many other groups, evolved new mechanisms of metabolism to survive the low CO2 and warm, dry conditions of the tropics over the last 10 million years.
A 1997 proposed phylogenetic tree of Plantae, after Kenrick and Crane, is as follows, with modification to the Pteridophyta from Smith et al. The Prasinophyceae are a paraphyletic assemblage of early diverging green algal lineages, but are treated as a group outside the Chlorophyta: later authors have not followed this suggestion.
A newer proposed classification follows Leliaert et al. 2011 and modified with Silar 2016 for the green algae clades and Novíkov & Barabaš-Krasni 2015 for the land plants clade. Notice that the Prasinophyceae are here placed inside the Chlorophyta.
Embryophytes
The plants that are likely most familiar to us are the multicellular land plants, called embryophytes. Embryophytes include the vascular plants, such as ferns, conifers and flowering plants. They also include the bryophytes, of which mosses and liverworts are the most common.
All of these plants have eukaryotic cells with cell walls composed of cellulose, and most obtain their energy through photosynthesis, using light, water and carbon dioxide to synthesize food. About three hundred...
https://wn.com/Plant_|_Diversity_|_Evolution_|_Embryophytes_|_Fossils
Plant | Diversity | Evolution | Embryophytes | Fossils
Plant
Diversity
The table below shows some species count estimates of different green plant (Viridiplantae) divisions. It suggests there are about 300,000 species of living Viridiplantae, of which 85–90% are flowering plants. (Note: as these are from different sources and different dates, they are not necessarily comparable, and like all species counts, are subject to a degree of uncertainty in some cases.)
The naming of plants is governed by the International Code of Nomenclature for algae, fungi, and plants and International Code of Nomenclature for Cultivated Plants (see cultivated plant taxonomy).
Evolution
The evolution of plants has resulted in increasing levels of complexity, from the earliest algal mats, through bryophytes, lycopods, ferns to the complex gymnosperms and angiosperms of today. Plants in all of these groups continue to thrive, especially in the environments in which they evolved.
An algal scum formed on the land 1,200 million years ago, but it was not until the Ordovician Period, around 450 million years ago, that land plants appeared. However, new evidence from the study of carbon isotope ratios in Precambrian rocks has suggested that complex photosynthetic plants developed on the earth over 1000 m.y.a. For more than a century it has been assumed that the ancestors of land plants evolved in aquatic environments and then adapted to a life on land, an idea usually credited to botanist Frederick Orpen Bower in his 1908 book "The Origin of a Land Flora". A recent alternative view, supported by genetic evidence, is that they evolved from terrestrial single-celled algae. Primitive land plants began to diversify in the late Silurian Period, around 420 million years ago, and the results of their diversification are displayed in remarkable detail in an early Devonian fossil assemblage from the Rhynie chert. This chert preserved early plants in cellular detail, petrified in volcanic springs. By the middle of the Devonian Period most of the features recognised in plants today are present, including roots, leaves and secondary wood, and by late Devonian times seeds had evolved. Late Devonian plants had thereby reached a degree of sophistication that allowed them to form forests of tall trees. Evolutionary innovation continued in the Carboniferous and later geological periods and is ongoing today. Most plant groups were relatively unscathed by the Permo-Triassic extinction event, although the structures of communities changed. This may have set the scene for the evolution of flowering plants in the Triassic (~200 million years ago), which exploded in the Cretaceous and Tertiary. The latest major group of plants to evolve were the grasses, which became important in the mid Tertiary, from around 40 million years ago. The grasses, as well as many other groups, evolved new mechanisms of metabolism to survive the low CO2 and warm, dry conditions of the tropics over the last 10 million years.
A 1997 proposed phylogenetic tree of Plantae, after Kenrick and Crane, is as follows, with modification to the Pteridophyta from Smith et al. The Prasinophyceae are a paraphyletic assemblage of early diverging green algal lineages, but are treated as a group outside the Chlorophyta: later authors have not followed this suggestion.
A newer proposed classification follows Leliaert et al. 2011 and modified with Silar 2016 for the green algae clades and Novíkov & Barabaš-Krasni 2015 for the land plants clade. Notice that the Prasinophyceae are here placed inside the Chlorophyta.
Embryophytes
The plants that are likely most familiar to us are the multicellular land plants, called embryophytes. Embryophytes include the vascular plants, such as ferns, conifers and flowering plants. They also include the bryophytes, of which mosses and liverworts are the most common.
All of these plants have eukaryotic cells with cell walls composed of cellulose, and most obtain their energy through photosynthesis, using light, water and carbon dioxide to synthesize food. About three hundred...
- published: 31 Dec 2018
- views: 793
7:47
Plants
Life on Earth 009 - Plants
Paul surveys the Kingdom Plantae. He begins with a brief description of the phylogeny of land plants. He then describes the defini...
Life on Earth 009 - Plants
Paul surveys the Kingdom Plantae. He begins with a brief description of the phylogeny of land plants. He then describes the defining characteristics of plants, including cell walls, embryophytes, alternation of generation and photosynthesis. He briefly describes the sporophyte and the gametophyte. He finishes with brief discussion of plant evolution and includes major divisions, like bryophytes, ferns, gymnosperms, and angiosperms.
Intro Music Atribution
Title: I4dsong_loop_main.wav
Artist: CosmicD
Link to sound: http://www.freesound.org/people/CosmicD/sounds/72556/
Creative Commons Atribution License
https://wn.com/Plants
Life on Earth 009 - Plants
Paul surveys the Kingdom Plantae. He begins with a brief description of the phylogeny of land plants. He then describes the defining characteristics of plants, including cell walls, embryophytes, alternation of generation and photosynthesis. He briefly describes the sporophyte and the gametophyte. He finishes with brief discussion of plant evolution and includes major divisions, like bryophytes, ferns, gymnosperms, and angiosperms.
Intro Music Atribution
Title: I4dsong_loop_main.wav
Artist: CosmicD
Link to sound: http://www.freesound.org/people/CosmicD/sounds/72556/
Creative Commons Atribution License
- published: 10 Apr 2012
- views: 512617
7:36
Embryophyte
Provided to YouTube by DistroKid
Embryophyte · MetaVoid
Heliosophist
℗ MetaVoid
Released on: 2018-10-19
Auto-generated by YouTube.
Provided to YouTube by DistroKid
Embryophyte · MetaVoid
Heliosophist
℗ MetaVoid
Released on: 2018-10-19
Auto-generated by YouTube.
https://wn.com/Embryophyte
Provided to YouTube by DistroKid
Embryophyte · MetaVoid
Heliosophist
℗ MetaVoid
Released on: 2018-10-19
Auto-generated by YouTube.
- published: 18 Oct 2018
- views: 59
37:26
Lab #4 Embryophytes
Chapters:
0:00 - Introduction
04:33 - Embryophytes
07:24 - Bryophytes
20:09 - Tracheophytes
20:38 - Lycophyta
27:09 - Monilophytes
33:46 - Lab #4 Exercises & Re...
Chapters:
0:00 - Introduction
04:33 - Embryophytes
07:24 - Bryophytes
20:09 - Tracheophytes
20:38 - Lycophyta
27:09 - Monilophytes
33:46 - Lab #4 Exercises & Recap
https://wn.com/Lab_4_Embryophytes
Chapters:
0:00 - Introduction
04:33 - Embryophytes
07:24 - Bryophytes
20:09 - Tracheophytes
20:38 - Lycophyta
27:09 - Monilophytes
33:46 - Lab #4 Exercises & Recap
- published: 22 Feb 2021
- views: 179