SLIDE TRAY Ammocetes: w.m. low power only Metridium: x.s. & l.s. 1-2 Amphioxus immature adult w.m. low power only
|
|
|
- Roxanne Gordon
- 5 years ago
- Views:
Transcription
1 SLIDE TRAY Ammocetes: w.m. 1-2 Amphioxus immature adult w.m. 1-3 Amphioxus composite x.s. 1-4 Grantia: choanocytes x.s. 1-5 Gemmules w.m. 1-6 Hydra: bud plus spermary w.m. 1-7 Hydra: nematocysts x.s. 1-8 Physalia: tentacle x.s. 1-9 Obelia: w.m Metridium: x.s. & l.s Planaria w.m Planaria x.s Taenia pisciformis: cysticercus w.m Taenia pisciformis: scolex w.m Fasciola hepatica: w.m Schistosoma japonicum: female w.m Nereis: parapodium w.m Earthworm x.s Obelia: medusa w.m Snail radula w.m.
2 SLIDE TRAY Ascaris lumbricoides x.s Spirillum w.m. 2-2 Anguillula aceti: w.m. 2-3 Hypsibius (water bear): w.m. 2-4 Peripatus: x.s. 2-5 Dermacentor variabilis: w.m. 2-6 Barnacle nauplius larva w.m. 2-7 Marine zooplankton w.m. 2-8 Parthenogenic eggs Daphnia: w.m. 2-9 Bacterial types w.m Wasserbleuthe w.m Gloeocapsa: w.m Merismopedia: w.m Nostoc: w.m Gleotrichia: w.m Oscillatoria: w.m Spirulina: w.m Stigonema: w.m Azotobacter: w.m Bacillus: w.m.
3 SLIDE TRAY Giardia lamblia: cysts smear Gregarina: vegetative sec. 3-2 Trypanosoma lewisi: smear Monocystis: smear. 3-3 Leishmania donovani: liver smear Eimeria stiedae: liver sec. 3-4 Euglena: w.m. 3-5 Mixed Dinoflagellates w.m. 3-6 Peridinium: w.m Plasmodium vivax: smear Toxoplasma gondii: various stages intestinal section Opalina: trophozoites smear. 3-7 Noctiluca: w.m Ochromonas: w.m. 3-8 Mixed Ciliates w.m Tribonema: w.m. 3-9 Paramecium: w.m Vaucheria geminata: w.m Balantidium coli: w.m Saprolegnia :w.m.
4 SLIDE TRAY Cystopus canadensis: oospores. 4-2 Peronospora parasitica: infected plant section. 4-3 Diatoms w.m. 4-4 Ectocarpus: unilocular and pleurilocular w.m. 4-5 Dictyota: sections. 4-6 Laminaria: blade section Foraminifera w.m. Low power only 4-12 Globigerina: strew Amoeba and Pelomyxa: w.m Amoeba proteus: w.m Endameoba hystolytica: trophozoites smear Endameoba hystolytica: cysts smear. 4-7 Fucus: male conceptacles section Stemonitis: w.m. 4-8 Fucus: female conceptacles section. 4-9 Plasmodiophora (Cabbage Clubroot) sec Radiolaria w.m. Low power only 4-18 Lycogala: sections of fruiting body Arcyria: capillitium w.m Hemitrichia: capillitium w.m.
5 SLIDE TRAY Allomyces: gametophyte Morchella: section with asci. 5-2 Rhizopus: zygotes w.m Peziza:cup with asci, sections. 5-3 Schizosaccaromyces: w.m. 5-4 Saccharomyces: budding w.m. 5-5 Penicillium: cleistothecia. 5-6 Penicillium: conidia w.m. 5-7 Microsphaera: on Syringa leaf w.m. Low power only 5-8 Aspergillus: cleistothecia. 5-9 Claviceps purpurea: young scalariform l.s Claviceps purpurea: sclerotium x.s Coprinus: x.s Puccinia graminis: aecia, Berberis leaf section Puccinia graminis: uredinia, infected wheat x.s Puccinia graminis: telia, infected wheat x.s Ustilago zeae: chlamydospores Lichen thallus section Glaucocystis: w.m Batrachospermum: w.m.
6 SLIDE TRAY Nemalion: male w.m. 6-2 Polysiphonia: antheridia, cystocarps, & tetraspores w.m. 6-3 Chlamydomonas: w.m. 6-4 Volvox: sexual stages w.m. 6-5 Gonium: w.m Hydrodictyon (young nets): w.m Oedogonium: macandrous w.m Cladophora: w.m Bryopsis: w.m Ulothrix: w.m. 6-6 Eudorina: w.m Spirogyra: reproduction w.m. 6-7 Pandorina: w.m. 6-8 Tetraspora: w.m. 6-9 Chlorella: w.m Cosmarium: vegetative w.m Chara: sex organs w.m Marchantia: thallus x.s Pediastrum: w.m Marchantia: gemma cup section.
7 SLIDE TRAY Marchantia: antheridia sec Moss antheridia l.s. 7-2 Marchantia: archegoniophore section Moss Archegonial Head. Mnium. l.s. 7-3 Marchantia: young sporophyte sec. 7-4 Marchantia: mature sporophyte near median section. 7-5 Riccia: antheridia section Moss Mature Capsule median l.s Moss Protonema & Germinated Spores. w.m Psilotum nudum: stem x.s. 7-6 Riccia: archegonia section Lycopodium: mature stem x.s. 7-7 Riccia: mature sporophyte section. 7-8 Ricciocarpus: mature sporophyte section. 7-9 Anthoceros: sporophyte w.m Anthoceros: mature sporophyte x.s Lycopodium: root x.s Lycopodium: mature strobilus l.s Lycopodium: mature strobilus l.s Selaginella: stem & rhizophore x.s.
8 SLIDE TRAY Selaginella: strobilus l.s. 8-2 Equisetum: w.m. of germinating spores. 8-3 Equisetum: root x.s. 8-4 Equisetum: rhizome x.s. 8-5 Equisetum: stem x.s Fern sori w.m Botrychium: root, stem, & stipe x.s Dicksonia: rhizome x.s Marsilia: rhizome and frond x.s Cycad leaflet x.s. 8-6 Equisetum: mature strobilus l.s. & x.s. 8-7 Fern prothallium antheridia w.m. 8-8 Fern prothallium archegonia w.m. 8-9 Fern prothallium embryo and sporophyte. w.m Fern sporangia w.m Cycad petiole x.s Zamia: staminate cone x.s Zamia: young ovulate cone x.s Zamia: embryo l.s Zamia: ovule l.s.
9 SLIDE TRAY Ginkgo: stem x.s. 9-2 Ginkgo: mature male strobilus x.s. 9-3 Ginkgo: microstrobilus l.s. 9-4 Ginkgo: young ovule l.s. 9-5 Ginkgo: ovule l.s Pinus: young root x.s Pine staminate cone x.s. & l.s Pinus: young ovulate cone l.s Pinus: ovulate cone after pollination l.s Pine ovule l.s. 9-6 Ginkgo: free-nuclear ovule l.s. 9-7 Ginkgo: young embryo m.l.s. 9-8 Pine leaf, five-needle x.s. 9-9 Pinus: one-year stem x.s Pine wood combination sections Pinus: ovule l.s Pinus: ovule archegonium egg nucleus l.s Pinus: ovule proembryo l.s Pinus: embryo m.l.s Larch stem l.s. & x.s.
10 SLIDE TRAY Spruce vegetative bud x.s Narcissus (daffodil): ovulary x.s Taxus: leaf x.s Tulipa: ovulary x.s Elodea: stem tip l.s Lilium: monocot flower bud x.s Typha: stem x.s Lilium: anther x.s., sporogenous tissue Tulipa: stem x.s Zea: stem x.s. & l.s Musa (banana): root x.s Lilium: anther x.s., first division Lilium: anther x.s., 1-celled microspores Lilium: anther x.s., mature pollen Yucca leaf x.s Lilium: style and stigma l.s Corn leaf x.s Crocus: ovulary x.s Lilium: ovulary x.s., megasporocytes Lilium: ovulary x.s., heterotypic division.
11 SLIDE TRAY Lilium: ovulary x.s., 2-nucleate stage Lilium: ovulary x.s., migration of nucleieaf x.s Lilium: ovulary x.s., second 4-nulcleate stage Lilium: ovulary x.s., early embryo Cucurbit stem x.s Lateral root origin x.s Lilac stem l.s., leaf gap Ulmus: leaf abscission m.l.s Tilia: meristematic stem x.s Ficus:stem and leaf x.s Tilia: one-year stem x.s Syringa: leaf gap l.s Tilia: two-year stem x.s Ligustrum (privit): leaf x.s Sambucus: young stem x.s Ilex: leaf x.s Coleus: stem x.s. No slide Coleus: stem tip m.l.s. No slide
12
DEPARTMENT OF BOTANY CHEMICALS
DEPARTMENT OF BOTANY CHEMICALS Sl. Chemicals Quantity No. 1. D.P.X. Mountant 500 ml 2 bottle 2. Formaldehyde Solution 500 ml 5 bottle 3. Glacial Acitic Acid 500 ml 5bottle 4. Hydrochloric Acid 500ml 2bottle
BRYOPHYTA, PTERIDOPHYTA
Botany Rexine Charts CYTOLOGY (ELB.106.125).01 Cell Membrane showing structure & functions.02 Cell Wall, showing structure & functions.03 Endoplasmic Reticulum showing structure & functions.04 Mitochondrion
CHAPTER 3 : PLANT KINGDOM. K C Meena PGT Biology KVS
CHAPTER 3 : PLANT KINGDOM K C Meena PGT Biology KVS Classification System Artificial classification oldest classification and it is based on few vegetative and sexual characters. Natural classification
CBSE Quick Revision Notes (Class-11 Biology) CHAPTER-03 PLANT KINGDOM
CBSE Quick Revision Notes (Class-11 Biology) CHAPTER-03 PLANT KINGDOM Eukaryotic, multicellular, chlorophyll containing and having cell wall, are grouped the kingdom Plantae, popularly known as plant kingdom.
Downloaded from
A.I.P.M.T. Foundation - XI Biology MCQs Time: 30 min MCQ#8 Full Marks: 40 Choose the most appropriate answer. 1. They are non-vascular plants: 1. Hosrsetails 2. Conifers 3. Club mosses 4. Liverworts 2.
Plant Evolution & Diversity
Plant Evolution & Diversity Ancestors of plants were probably charophytes (green algae) Chlorophyll a and b, beta carotene Similar thylakoid arrangements Identical cell walls Starch as a storage carbohydrate
TEST on PLANT TAXONOMY for NEET 2017
TEST on PLANT TAXONOMY for NEET 2017 1. Which one of the following shows isogamy with non-flagellated gametes? a) Sargassum b) Ectocarpus c) Ulothrix d) Spirogyra 2. Which of the following is responsible
Downloaded from
3. Plant Kingdom POINTS TO REMEMBER : CLASSIFICATION : Artificial System of Classification : Used superficial morphological characters. Based on a few characteristics like habit, colors, number and shape
BIODIVERSITY OF PLANTS 12 FEBRUARY 2014
BIODIVERSITY OF PLANTS 12 FEBRUARY 2014 In this lesson we: Lesson Description Look at how plants are classified Define Alternation of generations Summarise the main characteristics of four groupings of
Plants Review 1. List the 6 general characteristics of plants. 2. What did plants probably evolve from? 3. What are some advantages for life on land
Plants Review 1. List the 6 general characteristics of plants. 2. What did plants probably evolve from? 3. What are some advantages for life on land for a plant? 4. What are the 3 main groups of plants?
Kingdom: Plantae. Domain Archaea. Domain Eukarya. Domain Bacteria. Common ancestor
Kingdom: Plantae Domain Eukarya Domain Bacteria Domain Archaea Domain Eukarya Common ancestor The First Plants For more than 3 billion years, Earth s terrestrial surface was lifeless life evolved in the
Ch. 22: Plant Growth, Reproduction & Response
Ch. 22: Plant Growth, Reproduction & Response generally reproduce sexually, though many can also reproduce asexually. Some have lost ability to reproduce sexually. All plant lifecycles involve alternation
STUDY QUESTIONS TEST 2 ANTHOCEROPHYTA, TRACHEOPHYTES AND PLANT STRUCTURE
STUDY QUESTIONS TEST 2 ANTHOCEROPHYTA, TRACHEOPHYTES AND PLANT STRUCTURE 1. Name the Bryophyte phylum that is most closely related to vascular plants? 2. How do Anthocerophyta differ from other Bryophytes?
AP Biology. Evolution of Land Plants. Kingdom: Plants. Plant Diversity. Animal vs. Plant life cycle. Bryophytes: mosses & liverworts
Kingdom: Plants Domain Eukarya Domain Domain Domain Eubacteria Archaea Eukarya 2007-2008 Common ancestor Evolution of Land Plants 500 mya land plants evolved special adaptations for life on dry land protection
Class XI Chapter 3 Plant Kingdom Biology
Question 1: What is the basis of classification of algae? Algae are classified into three main classes Chlorophyceae, Phaeophyceae, and Rhodophyceae. These divisions are based on the following factors:
Unit 2B- The Plants. Plants can be classified according to the presence or absence of vascular tissue.
Unit 2B- The Plants Botany is the study of plants. All plants are said to have a common ancestor; (ie.) it is thought that plants have evolved from an ancient group of green algae. Plants and green algae
Chapter 3 Plant Kingdom
Class XI Chapter 3 Plant Kingdom Biology Question 1: What is the basis of classification of algae? Algae are classified into three main classes Chlorophyceae, Phaeophyceae, and Rhodophyceae. These divisions
Kingdom Plantae. Biology : A Brief Survey of Plants. Jun 22 7:09 PM
Kingdom Plantae Biology 2201 6.1 6.2 : A Brief Survey of Plants The study of plants is called botany. Plants are believed to have evolved from green algae. The main plant (land) characteristics are as
-plant bodies composed of tissues produced by an apical meristem. -spores with tough walls. -life history of alternation of generations
Chapter 21-Seedless Plants Major modern plant groups All groups of land-adapted plants have a common set of characteristics: -plant bodies composed of tissues produced by an apical meristem -spores with
Major lineages and life cycles of land plants. Green plants: viridiplantae
Liverworts Mosses Hornworts Lycophytes Major lineages and life cycles of land plants Green plants: viridiplantae Green plants Embryophytes (land plants) Bryophytes Tracheophytes (vascular plants) Seed
Kingdom Plantae. X. Responding to Environment (10B, 12B) What are plant hormones? (p.648) What are receptor proteins? (p.648)
X. Responding to Environment (10B, 12B) What are plant hormones? (p.648) What are receptor proteins? (p.648) Kingdom Plantae What are auxins? (p.648) What are nastic responses? (p.651) What is a tropic
Phylum Bryophyta : (Page 169)
Kingdom Plantae : Plants... - nonmotile eukaryotic, multicellular, autotrophic organisms - rigid cell walls built of cellulose - life cycles show alternation of generations...two distinct phases called
CHAPTERS 16 & 17: PROKARYOTES, FUNGI, AND PLANTS Honors Biology 2012 PROKARYOTES PROKARYOTES. Fig Lived alone on Earth for over 1 billion years
CHAPTERS 6 & 7: PROKARYOTES, FUNGI, AND PLANTS Honors Biology 0 PROKARYOTES Lived alone on Earth for over billion years Most numerous and widespread organisms (total biomass of prokaryotes is ten times
Pteridophytes: Pteridophytes are vascular cryptogams. They are the earliest know vascular plants which originated in the Silurian period of
Pteridophytes: Pteridophytes are vascular cryptogams. They are the earliest know vascular plants which originated in the Silurian period of Palaeozoic era. They are the successful colonizers on land habit.
Points to Remember. Based on cytological informations. Gives importance to chromosome number, structure and behaviour.
Points to Remember Classification : Arti cial System of Classi cation By Carolus Linnaeus, based on androecium structure and vegetative characters. Natural System of Classi cation Based on natural af nities
Diversity of Plants How Plants Colonized the Land
Chapter 29, 30. Diversity of Plants How Plants Colonized the Land 1 The first plants For more than 3 billion years, Earth s terrestrial surface was lifeless life evolved in the seas 1st photosynthetic
Reproductive Morphology
Week 3; Wednesday Announcements: 1 st lab quiz TODAY Reproductive Morphology Reproductive morphology - any portion of a plant that is involved with or a direct product of sexual reproduction Example: cones,
Quick 50 In Plant Kingdom
Quick 50 In Plant Kingdom 1. Identify the plants shown in figure and select the incorrect statement. (a) Plant A is Chara, which is fixed to the substratum by means of highly branched multicellular rhizoids.
Plant Structure Size General Observations
Kingdom Plantae Plant Structure Size General Observations Diversity Within the Plant Kingdom Pine Trees What is a plant? Multicellular Eukaryotes Perform Photosynthesis (base of all terrestrial food chains)
Worksheet for Morgan/Carter Laboratory #16 Plant Diversity II: Seed Plants
Worksheet for Morgan/Carter Laboratory #16 Plant Diversity II: Seed Plants BE SURE TO CAREFULLY READ THE INTRODUCTION PRIOR TO ANSWERING THE QUESTIONS!!! You will need to refer to your text book to answer
Chapter 29: Plant Diversity I How Plants Colonized Land
Chapter 29: Plant Diversity I How Plants Colonized Land 1. Evolutionary History of Plants 2. General Features of Plants 3. Survey of the Plant Kingdom A. Nonvascular Plants B. Seedless Vascular Plants
22 3 Seedless Vascular Plants Slide 1 of 33
22 3 Seedless Vascular Plants 1 of 33 Evolution of Vascular Tissue Plants have vascular tissue, which is specialized to conduct water and nutrients throughout the plant. Xylem carries water from the roots
Topic 23. The Ferns and Their Relatives
Topic 23. The Ferns and Their Relatives Domain: Eukarya Kingdom: Plantae Ferns Leptosporangiate Ferns Psilophytes Genus: Psilotum Horsetails Genus: Equisetum In this treatment we lump the Psilophytes and
PROTISTS. Bui Tan Anh College of Natural Sciences
CHAPTER 6 Plantae PROTISTS Protistsare eukaryotes and thus have organelles and are more complex than prokaryotes. Most protistsare unicellular, but there are some colonial and multicellular species Nutrition
Multicellular Eukaryotic Autotrophic Sessile means cannot move Have cellulose in their cell walls
1 Plant Characteristics: Multicellular Eukaryotic Autotrophic Sessile means cannot move Have cellulose in their cell walls chloroplast vacuole Golgi body Cell wall nucleus mitochondria Cell membrane 2
What is a Plant? Plant Life Cycle. What did they evolve from? Original Habitat 1/15/2018. Plant Life Cycle Alternation of Generations
What is a Plant? Multicellular Eukaryotic Autotrophic (photosynthesis) Has cell walls containing cellulose Lack mobility (sessile) Display Alternation of Generations in their life cycle Introduction to
Sporic life cycles involve 2 types of multicellular bodies:
Chapter 3- Human Manipulation of Plants Sporic life cycles involve 2 types of multicellular bodies: -a diploid, spore-producing sporophyte -a haploid, gamete-producing gametophyte Sexual Reproduction in
Land Plant Diversity Seed Plants: Gymnosperms and Angiosperms
Land Plant Diversity Seed Plants: Gymnosperms and Angiosperms Non-vascular Plants the Bryophytes Vascular Seedless Plants Ferns and Fern Allies Adaptations for Life on Land Vascular tissue (xylem and phloem)
Biology Lab: The Diversity of the Plant Kingdom
Biology Lab: The Diversity of the Plant Kingdom Name Date Introduction: Simply put, life on Earth relies on the plants for survival. By carrying out photosynthesis, plants provide enough food for themselves
Plant Kingdom. C l a s s i f i c a t i o n Artificially grouped into Nonvascular or Vascular Plants
Plant Kingdom C h a r a c t e r i s t i c s Eukaryotic Photosynthetic Multicellular Sexually reproducing Life History involves an alternation of a haploid phase (Gametophyte) with a diploid phase (Sporophyte)
1/15/2014. Monocots, Dicots, Gymnosperms & Ferns. Classification of Plants. Classification of Plants
Monocots, Dicots, Gymnosperms & Ferns Plant Classification & Basic Plant Groups for the Landscape Classification of Plants Taxonomic classification starts with the least specific it s a plant And ends
Introduction to Bryophyta
Introduction to Bryophyta Botany Department, Brahmanand PG College, Bryophyta (Greek Bryon = Moss, phyton = plants) is a group of simplest and primitive plants of the class Embryophyta. The group is represented
Bryophyte Gametophytes. Bryophyte Gametophytes. A spore germinates into a gametophyte. composed of a protonema and gamete producing gametophore
A spore germinates into a composed of a protonema and gamete producing gametophore Rhizoids Anchor s to substrate Lack of vascular :ssues Bryophyte Gametophytes Restricts the height of s Mature s produce
3. Diagram a cladogram showing the evolutionary relationships among the four main groups of living plants.
OBJECTIVE SHEET PLANTS Phylum: Coniferophyta (gymnosperms the conifers) Phylum: Anthophyta (angiosperms the flowering plants) 1. Explain the alternation of generations in the two-phase life cycle of all
Plants I. Introduction
Plants I Objectives: 1. List the characteristics of plants that link them to their ancestral green algae. 2. Describe the problems faced by plants that moved onto the land. 3. Describe the adaptations
Plants Have Changed the World
Chapter 19 Plants Man: G. R. "Dick" Roberts/Natural Sciences Image Library Copyright McGraw-Hill Education. All rights reserved. No reproduction or distribution without the prior written consent of McGraw-Hill
Name Hour Section 22-1 Introduction to Plants (pages ) Generation Description Haploid or Diploid? Gamete-producing plant Spore-producing plant
Name Hour Section 22-1 Introduction to Plants (pages 551-555) What Is a Plant? (page 551) 1. Circle the letter of each sentence that is true about plants. a. Plants are multicellular prokaryotes. b. Plants
Chapter 29 Plant Diversity I: How Plants Colonized Land
Chapter 29: Plant Diversity I: How Plants Colonized Land Chapter 29 Plant Diversity I: How Plants Colonized Land Name Period Concept 29.1 Land plants evolved from green algae 1. Plants colonized land about
LAB 13 The Plant Kingdom
LAB 13 The Plant Kingdom Overview The importance of plants for life on earth cannot be overstated. Plants along with photosynthetic microbes produce all of the oxygen gas (O 2 ) in our atmosphere. Essentially
Table 9.1.: Potometer Readings. Calculation of leaf Surface Area
Table 9.1.: Potometer Readings 18 21 24 27 30 11. At the end of your experiment, cut all the leaves off the plant and mass them. Remember to blot off all excess water before Mass of leaves.~ grams. Calculation
Seed Plants. Gymnosperms & Angiosperms
Seed Plants Gymnosperms & Angiosperms 1 Quick Defs Vascular = xylem and phloem Xylem = Brings water/nutrients from roots to the plant. Phloem = Brings sugars down from the leaves 2 Evolution Of Land Plants
The overall category of plants are 1) eukaryotic 2) multicellular 3)organisms capable of photosynthesis 4)built with cellulose 5) and have
Chapter 23 The overall category of plants are 1) eukaryotic 2) multicellular 3)organisms capable of photosynthesis 4)built with cellulose 5) and have alternation of generations. Plants most likely first
Unit 10 Plants/ Study Guide
Name Class Date Section 20.1: Origins of Plant Life Unit 10 Plants/ Study Guide KEY CONCEPT Plant life began in the water and became adapted to land. VOCABULARY plant vascular system seed cuticle stomata
Prokaryotes Divide Asexually! Cell Cycles & Life Cycles. Heyer 1. Cell Cycles, Sex, & Ploidy! Cells divide to reproduce! Growth & Development
Cell Cycles, Sex, & Ploidy! 1. DNA is the molecule of inheritance. 2. A chromosome is one long dsdna. In eukaryotes, the dsdna molecule is wrapped with histones & other proteins to form chromatin. 3. A
PLANT KINGDOM
PLANT KINGDOM 1. All organisms belonging to the following kingdoms have cell wall I. Monera II. Protista III. Fungi IV. Plantae a) All except II and III *b) All except I and II c) All except I and III
Nonvascular Plants. Believed to have evolved from green-algae. Major adaptations in going from water to land. Chlorophylls a & b and cartenoids
Nonvascular Plants Believed to have evolved from green-algae Chlorophylls a & b and cartenoids Store starch within chloroplasts Cell wall made up mostly of cellulose Major adaptations in going from water
AECC: Ability Enhancement Compulsory Course: DSC: Discipline Specific Course: DSE : Discipline Specific Elective
Telangana State Council of Higher Education, Govt. of Telangana B.Sc CBCS Common Core Syllabus for All Universities in Telanganas (wef 2016-2017). PROPOSED SCHEME FOR B.Sc PROGRAMME UNDER CHOICE BASED
Early-bird Special The following terms refer to alternation of generation:
Early-bird Special The following terms refer to alternation of generation: Homosporous ( one type of spore. a single type of spore produces a single type of gametophyte which produces both male and female
The Green Machine. Understanding the Seedless Vascular Plants. To the Instructor. Topics for Discussion
The Green Machine 21 Understanding the Seedless Vascular Plants To the Instructor The seedless vascular plants include several plants with which students are familiar, such as ferns. These plants can serve
askiitians Q2. When and where does reduction division take place in the life cycle of a liverwort, a moss, a fern, a gymnosperm and an angiosperm?
Class: XI Subject: Biology Topic: Plant kingdom No. of Questions: 25 Q1. What is the basis of classification of algae? Earlier, the algae were classified on the basis of single visible character, viz.,
Flowering Plants (Angiosperms)
Flowering Plants (Angiosperms) Flowering Plants (Angiosperms) Inside ovary: Structures called ovules.. Meiosis occurs in these, producing four haploid female spores. Three of these disintegrate. The fourth
Biology. Chapter 21. Plant Evolution. Concepts and Applications 9e Starr Evers Starr. Cengage Learning 2015
Biology Concepts and Applications 9e Starr Evers Starr Chapter 21 Plant Evolution 21.1 How Did Plants Adapt To Life on Land? Plants evolved from green algae, and underwent an adaptive radiation on land
Topic 22. Introduction to Vascular Plants: The Lycophytes
Topic 22. Introduction to Vascular Plants: The Lycophytes Introduction to Vascular Plants Other than liverworts, hornworts, and mosses, all plants have vascular tissues. As discussed earlier, the mosses
Biology Slide 1 of 28
Biology 1 of 28 2 of 28 22-4 Seed Plants Seed plants are the most dominant group of photosynthetic organisms on land. 3 of 28 22-4 Seed Plants Seed plants are divided into two groups: Gymnosperms bear
NAME: TERM: I W/S # 1 GR: 11 SUB: BIOLOGY CH 20 : PLANT DIVERSITY DATE :
NAME: TERM: I W/S # 1 GR: 11 SUB: BIOLOGY CH 20 : PLANT DIVERSITY DATE : Modified True/False Indicate whether the statement is true or false. If false, change the identified word or phrase to make the
Nonvascular plants Vascular plants Spore Gymnosperm Angiosperm Germinate. Copyright Houghton Mifflin Harcourt Publishing Company
Nonvascular plants Vascular plants Spore Gymnosperm Angiosperm Germinate Tubes for Transport Warm Up 1 Tubes for Transport Nonvascular plants are simple plants that lack vascular tissue, which easily transports
SYLLABUS THEME B PLANT CLASSIFICATION & DIVERSITY INTRODUCTION TO TAXONOMY HISTORICAL DEVELOPMENT
SYLLABUS THEME B PLANT CLASSIFICATION & DIVERSITY B1: Naming and classification of organisms Biology of Plants - Raven et al. 2005 pp. 219-237 INTRODUCTION TO TAXONOMY Taxonomy Naming Describing Classifying
1 Mosses and other bryophytes are like ferns in that both bryophytes and ferns exhibit each of the following traits EXCEPT
Page 1 1 Mosses and other bryophytes are like ferns in that both bryophytes and ferns exhibit each of the following traits EXCEPT A haploid spores. B specialized cells and tissues. C vascular tissue for
BIO10 Plant Lecture Notes ch. 17. Plant Kingdom
Plant Kingdom Characteristics of the Plant Kingdom; eukaryotic, multicellular, sexually reproducing organisms autotroph feed themselves by photosynthesis Facts about members of this kingdom the dominant
Biology 2. Lab Packet. For. Practical 2
Biology 2 Practicum 2 1 Biology 2 Lab Packet For Practical 2 Biology 2 Practicum 2 2 PLANT CLASSIFICATION: Domain: Eukarya (Supergroup: Archaeplastida) Kingdom: Plantae Nonvascular Seedless Plants Division:
Plant Diversity & Evolution (Outline)
Plant Diversity & Evolution (Outline) Review the Life cycle of Fungi Characteristics of organisms in the Kingdom Plantae. Evolution of plants: Challenges and adaptations to living on land Highlights of
Slide 1. Slide 2. Slide Onto Land
Slide 1 18.1 Onto Land 18.1.1 Describe the evolutionary relationship between green algae and land plants. 18.1.2 List the five significant events in the evolution of land plants. 18.1.3 Describe the alternation
a. capture sunlight and absorb CO 2
BIO 274-01 Exam 1 Name Matching (10 pts) 1. Match each plant part with its function: root c a. capture sunlight and absorb CO 2 for photosynthesis leaves a b. provides support, conducts water and nutrients
Comparing Plants & Animals
Section 6.1 Comparing Plants & Animals p. 164-168 Major Similarities: They are both multi-cellular, eukaryotes. Their sizes both range from microscopic to very large. Major Differences: How they obtain
Unit 2. The pellicle acts as a membrane It maintains the shape of the protozoan but remains flexible Ectoplasm
Kingdom Protista A polyphyletic group containing: Unit 2 Polyphyletic- The Protozoans (Unicellular - can be very complex) Individuals may group together to form colonies Colony Specialized organelles Pellicle
Chapters 29 & 30: Plant Diversity
Chapters 29 & 30: Plant Diversity AP Biology 2013 1 Chara species, a pond organism 5 mm Colonization of the Land Coleochaete orbicularis, a disk-shaped charophyte that also lives in ponds (LM) Since colonizing
Chapter 30. Plant Diversity II The Seed Plants
Chapter 30 Plant Diversity II The Seed Plants The rise of the seed plants Recall that our discussions on terrestrial plants up until this point have focused on a transition from the aquatic green algae
Announcements. Lab Quiz #1 on Monday: (30pts) conifers + cones, vegetative morphology. Study: Display case outside HCK 132 with labeled conifers
Announcements Lab Quiz #1 on Monday: (30pts) conifers + cones, vegetative morphology Study: Display case outside HCK 132 with labeled conifers Movie: Sexual Encounters of the Floral Kind Intro to Keying/Greenhouse
Classification of Plants
Classification of Plants Plants Aquatic Plants Ex. green algae Similarities between green algae and land plants: A) have chlorophylls a and b B) cellulose cell walls C) store food energy in the form of
The Producers: The Plant Kingdom An Introduction to Plants and the Mosses
The Producers: The Plant Kingdom An Introduction to Plants and the Mosses Mosses Phylum Bryophyta - ~12,000 species Liverworts - Phylum Hepaticophyta - ~8,500 species Hornworts - Phylum Anthocerophyta
STUDY GUIDE SECTION 27-1 Plants and People
STUDY GUIDE SECTION 27-1 Plants and People You may work with one partner, but each student must turn in their own completed packet. For the Multiple Choice-please choose the best answer. For the Short
*Modifications in reproduction were key adaptations enabling plants to spread into a variety of terrestrial habitats.
Plant Reproduction *Modifications in reproduction were key adaptations enabling plants to spread into a variety of terrestrial habitats. Reproduction In Plants Plant reproduction is the production of new
Introduction to Plants
Introduction to Plants Plants Alive What are the characteristics of plants? All plants are multicellular, which means their bodies are made up of more than one cell. Plants are eukaryotes, which means
Chapter 15. Plant Evolution and Classification Worksheets. (Opening image copyright Jonathan Lingel, Used under license from Shutterstock.com.
Chapter 15 Plant Evolution and Classification Worksheets (Opening image copyright Jonathan Lingel, 2010. Used under license from Shutterstock.com.) Lesson 15.1: Introduction to the Plant Kingdom Lesson
Chapter 23: Plant Diversity and Life Cycles
Chapter 23: Plant Diversity and Life Cycles Section 1: Introduction to Plants Cuticle: a waxy or fatty and watertight layer on the external wall of epidermal cells Spore: a reproductive cell or multicellular
Types of Plants. Unit 6 Review 5/2/2011. Plants. A. pine B. moss C. corn plant D. bean plant E. liverwort
Unit 6 Review Plants Initial questions are worth 1 point each. Each question will be followed by an explanation All questions will be asked a second time at the very end, each of those questions will be
The Plant Kingdom If you were to walk around a forest, what would you see? Most things that you would probably name are plants.
INTRODUCTION TO PLANTS The Plant Kingdom If you were to walk around a forest, what would you see? Most things that you would probably name are plants. Plants are abundant in almost every environment that
Biology 211 (1) Exam 3 Review! Chapter 31!
Biology 211 (1) Exam 3 Review Chapter 31 Origin of Land Plants: 1. Fill in the correct amount of years ago the following events occurred. years ago there was a thin coating of cyanobacteri b. years ago
Botany Plant Evolution
Botany Plant Evolution Acetabularia is a genus of green algae, specifically of the Polyphysaceae family. Typically found in subtropical waters, Acetabularia is a singlecelled organism, but gigantic in
Major groups of algae
Algae general features. All are protists They require moist environments because they lack a cuticle They lack vascular tissues Algae are photosynthetic and reproduce both sexually and asexually Major
Plants Notes. Plant Behavior Phototropism - growing towards light
Plants Notes Plant Behavior Phototropism - growing towards light Geotropism - roots knowing which direction is down Thigmotropism - a plant's response to touch Ex. a vine wrapping around and climbing a
Understanding the Seed Plants (Gymnosperms)
The Green Machine 22 Understanding the Seed Plants (Gymnosperms) To the Instructor The gymnosperms are more obvious to students than the nonvascular and seedless vascular plants. A stroll across campus
Bryophytes: primitive land plants
Bryophytes: primitive land plants These are the plants that were present soon after land was colonized, over 400 million years ago. A few plants living today are closely related to those ancient plants,
Ms.Sastry, AP Biology Unit 4/Chp 26 to 34/Diversity 1 Chapter in class follow along lecture notes
Ms.Sastry, AP Biology Unit 4/Chp 26 to 34/Diversity 1 Chapter 26 34 in class follow along lecture notes Chp 26 Origin of life: 1) When did earth form? 2) What is the order of evolution of life forms on
Some History: In the life cycle of the kelp Laminaria. One way to separate algae from protozoa is that. Rocks of Cambrian Age (ca.
One way to separate algae from protozoa is that a. Protozoa are photosynthetic, while algae are not. b. Algae are photosynthetic, while protozoa are not. c. Protozoa are prokaryotic, while algae are eukaryotic.
SGTB Khalsa College, University of Delhi Lesson Plan ( ) Department of Botany
SGTB Khalsa College, University of Delhi Lesson Plan (2016-17) Department of Botany Title of the Paper: Biodiversity I (Microbes, Algae, Fungi and Archegoniate) Course Name: B.Sc. Life sciences I Year
GX Microscopes Capsella Helianthus Lymph Node Hydra Fern Gall Bladder High Quality Specimens Mounted on Glass Slides Individually Labelled GX Microscopes have one of the largest collections of prepared
Chapter 7 Lesson 3 Seed Reproduc4on
Chapter 7 Lesson 3 Seed Reproduc4on Demonstrate an understanding of sexual reproduc4on in flowering plants Describe various methods of plant pollina4on What You ll Learn Examine the life cycles of typical
Exam 2 Mean = 67.8 Median = In bryophytes meiosis produces the. a. sporophyte b. gametophyte c. gametes d. sporangium e.
Exam 2 Mean = 67.8 Median = 69.0 38. In bryophytes meiosis produces the. a. sporophyte b. gametophyte c. gametes d. sporangium e. spores 1 49. Which of the following is least closely related to bryophytes?
Structures and Functions of Living Organisms
Structures and Functions of Living Organisms 6.L.1 Understand the structures, processes and behaviors of plants that enable them to survive and reproduce. 6.L.1.1 Summarize the basic structures and functions