DOCSLIB.ORG

AS Flower Reproduction

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
AS Flower Reproduction 2/11/19 AMOEBA SISTERS: VIDEO RECAP ANGIOSPERM REPRODUCTION Amoeba Sisters Video Recap of Plant Reproduction in Angiosperms 1. What characteristics are common in angiosperms? 2. A topic emphasized in this clip is that not all fruits are sweet. Or even edible! Every plant that forms a flower must have a fruit. How would you define a “fruit?” How can fruits be • Flowering plants helpful in seed dispersal? • Bear fruit Fruit is something that has flesh AMOEBA SISTERS: VIDEO RECAP around ANGIOSPERMseeds. REPRODUCTION Amoeba Sisters Video Recap of Plant ReproductionWhen animals in Angiosperms eat them, seeds move away from parent plant. 1. What characteristics are common in angiosperms? 2. A topic emphasized in this clip is that not all fruits are sweet. Or even edible! Every plant that forms a flower must have a fruit. How would you define a “fruit?” How can fruits be helpful in seed dispersal? 3. Flowers can contain one or both genders of flower parts. 4. Flowers can contain one or both genders of flower parts. Label A, B, and C. Label D, E, F, and G. A is the ____________________________________________. D is the ____________________________________________. B is the ____________________________________________. E is the ____________________________________________. C is the ____________________________________________. F is the ____________________________________________. All of these3. Flowers are can contain one or ?both _________________________ genders of flower parts. 4. FlowersG is cathen co ____________________________________________.ntain one or both genders of flower parts. Label A, B, and C. Label D, E, F, and G. All of these are ? _________________________ A is the ____________________________________________.anther D is the ____________________________________________.stigma B is the ____________________________________________.filament E is the ____________________________________________.style C is the ____________________________________________.stamen F is the ____________________________________________.ovary All of these are ? _________________________male G is the ____________________________________________.pistil All of these are ? _________________________female 1 2/11/19 AMOEBA SISTERS: VIDEO RECAP ANGIOSPERM REPRODUCTION Narrate Pollination and Double Fertilization in Angiosperms The pictures are in order, but it’s your turn to briefly narrate pollination and fertilization using the pictures. You must use all of the following words at least once (they are in a randomized order): pollinator, seed, ovary, ovule, zygote, double fertilization, sperm cell(s), stigma, pollen, anther, pollen tube, endosperm, and fruit. Cross the words off to help you keep track of usage! 5. Pollination Brief Description: AMOEBA SISTERS: VIDEO RECAP ANGIOSPERM REPRODUCTION A pollinator comes to the flower Narrate Pollination andto Double get nectar.Fertilization in Angiosperms The pictures are in order, but it’s your turn to briefly narrate pollination and fertilization using the pictures. You must use all of the following words at least once (they are in a randomizedIn order): this pollinator process, seed, ovary ,the ovule, zygotepollinator, double fertilization, sperm cell(s), stigma, pollen, anther, pollen tube, endosperm,knocks and fruit. Cross the the words pollen off to help youfrom keep track the of usage! 5. Pollination anther to theBrief stigma. Description: 6. Pollen Tube Brief Description: Germination 6. Pollen Tube Brief Description: Germination A pollen tube forms and the 7. Fertilization pollen (spermBrief cell) Description: swims down the tube into the ovary. At the ovary the sperm cell divides into 2 and combines with ovules. 7. Fertilization Brief Description: 2 AMOEBA SISTERS: VIDEO RECAP ANGIOSPERM REPRODUCTION Narrate Pollination and Double Fertilization in Angiosperms The pictures are in order, but it’s your turn to briefly narrate pollination and fertilization using the pictures. You must use all of the following words at least once (they are in a randomized order): pollinator, seed, ovary, ovule, zygote, double fertilization, sperm cell(s), stigma, pollen, anther, pollen tube, endosperm, and fruit. Cross the words off to help you keep track of usage! 5. Pollination Brief Description: 6. Pollen Tube Brief Description: Germination 2/11/19 7. Fertilization Brief Description: The surrounding ovary develops into a fruit. 3.
Load more

Recommended publications
  • Reproduction in Plants Which But, She Has Never Seen the Seeds We Shall Learn in This Chapter
    Reproduction in 12 Plants o produce its kind is a reproduction, new plants are obtained characteristic of all living from seeds. Torganisms. You have already learnt this in Class VI. The production of new individuals from their parents is known as reproduction. But, how do Paheli thought that new plants reproduce? There are different plants always grow from seeds. modes of reproduction in plants which But, she has never seen the seeds we shall learn in this chapter. of sugarcane, potato and rose. She wants to know how these plants 12.1 MODES OF REPRODUCTION reproduce. In Class VI you learnt about different parts of a flowering plant. Try to list the various parts of a plant and write the Asexual reproduction functions of each. Most plants have In asexual reproduction new plants are roots, stems and leaves. These are called obtained without production of seeds. the vegetative parts of a plant. After a certain period of growth, most plants Vegetative propagation bear flowers. You may have seen the It is a type of asexual reproduction in mango trees flowering in spring. It is which new plants are produced from these flowers that give rise to juicy roots, stems, leaves and buds. Since mango fruit we enjoy in summer. We eat reproduction is through the vegetative the fruits and usually discard the seeds. parts of the plant, it is known as Seeds germinate and form new plants. vegetative propagation. So, what is the function of flowers in plants? Flowers perform the function of Activity 12.1 reproduction in plants. Flowers are the Cut a branch of rose or champa with a reproductive parts.
    [Show full text]
  • Plant Reproduction Angiosperm Specific Adaptations Angiosperms
    4/15/2013 Gymnosperms Angiosperms Pterophytes Seeds Plant Reproduction Lycophytes Bryophytes Vascular tissue Green algae: BI 103 Plant-Animal A&P Chlorophytes Turn in Homework #1 Land plants Angiosperm specific adaptations • Unlike other plants they have: Why do plants have flowers? In – Flowers other words, what are the – Double fertilization advantages of flowering? – Fruit Discuss this question in groups Alternating Generations In more advanced plants, the sporophyte generation is Angiosperms: the Flowering plants dominant. Why do plants have flowers? Enlists partnerships with insects and other animals Less inbreeding Higher probability the pollen will reach the right plant They don’t have to produce as much pollen 1 4/15/2013 How is pollen an adaptation to land? Alternation of generations modified Allows fertilization to occur even in the absence • Pollen= Male gametophyte of available water. Contains sperm • Ovule= Female gametophyte water Contains egg Moss fertilization Pollen grains Anthers with microspores Microspore to pollen 1. The microspores divides by mitosis to produce two cells Generative cell (1n) Tube cell== vegetative nucleus (1n) 2. A two layered wall develops around the microspore to become the pollen 3. The generative cell undergoes division once more 3n total (3 nuclei) in pollen Double fertilization Fruit development 1. Two pollen nuclei enter ovule 2. One fuses with the egg to form the zygote 3. The other fuses with 2 central cell nuclei to become the endosperm (3n), food for the zygote Becomes the seed! Becomes
    [Show full text]
  • Seed and Seed Dispersal
    1st GRADE SEEDS AND SEED DISPERSAL Summary: This lab is all about seeds. First, students take apart a swollen lima bean seed and find the seed coat, food storage area, and the plant embryo. Second, the students sort a bag of seeds into groups and notice that all seeds look different but have the same three seed parts. Finally, students sort seeds that are dispersed in different ways. Students identify seeds that are dispersed by wind, hitchiking, animals carrying and burying, and animals eating and pooping. Intended Learning Outcomes for 1st Grade: Objective 1: Framing questions. Conducting investigations. Drawing conclusions. Objective 2: Developing social interaction skills with peers. Sharing ideas with peers. Connecting ideas with reasons. Objective 3: Ideas are supported by reasons. Communicaiton of ideas in science is important for helping to check the reasons for ideas. Utah State Core Curriculum Tie: Standard 4 Objective 1: Life Science Analyze the individual similarities and differences within and across larger groups. Standard 4 Objective 2: Life Science Describe and model life cycles of living things. Make observations about living things and their environment using the five senses. Preparation time: 1 hour to locate seeds the first time, then 20 min if seeds are reused Lesson time: 50 min Small group size: works best with one adult for every 5 students Materials: 1. one petri dish or paper towel per student 2. 1 bag of dried lima beans 3. One seed classification bag per group, this should include 5-6 seeds of about 15 different seed types. Use old seeds from seed packets or spices or seeds or nuts you may have in your kitchen.
    [Show full text]
  • Pollen Tube Guidance by Pistils Ensures Successful Double Fertilization Ravishankar Palanivelu∗ and Tatsuya Tsukamoto
    Advanced Review Pathfinding in angiosperm reproduction: pollen tube guidance by pistils ensures successful double fertilization Ravishankar Palanivelu∗ and Tatsuya Tsukamoto Sexual reproduction in flowering plants is unique in multiple ways. Distinct multicellular gametophytes contain either a pair of immotile, haploid male gametes (sperm cells) or a pair of female gametes (haploid egg cell and homodiploid central cell). After pollination, the pollen tube, a cellular extension of the male gametophyte, transports both male gametes at its growing tip and delivers them to the female gametes to affect double fertilization. The pollen tube travels a long path and sustains its growth over a considerable amount of time in the female reproductive organ (pistil) before it reaches the ovule, which houses the female gametophyte. The pistil facilitates the pollen tube’s journey by providing multiple, stage-specific, nutritional, and guidance cues along its path. The pollen tube interacts with seven different pistil cell types prior to completing its journey. Consequently, the pollen tube has a dynamic gene expression program allowing it to continuously reset and be receptive to multiple pistil signals as it migrates through the pistil. Here, we review the studies, including several significant recent advances, that led to a better understanding of the multitude of cues generated by the pistil tissues to assist the pollen tube in delivering the sperm cells to the female gametophyte. We also highlight the outstanding questions, draw attention to opportunities created by recent advances and point to approaches that could be undertaken to unravel the molecular mechanisms underlying pollen tube–pistil interactions. 2011 Wiley Periodicals, Inc.
    [Show full text]
  • Ap09 Biology Form B Q2
    AP® BIOLOGY 2009 SCORING GUIDELINES (Form B) Question 2 Discuss the patterns of sexual reproduction in plants. Compare and contrast reproduction in nonvascular plants with that in flowering plants. Include the following topics in your discussion: (a) alternation of generations (b) mechanisms that bring female and male gametes together (c) mechanisms that disperse offspring to new locations Four points per part. Student must write about all three parts for full credit. Within each part it is possible to get points for comparing and contrasting. Also, specific points are available from details provided about nonvascular and flowering plants. Discuss the patterns of sexual reproduction in plants (4 points maximum): (a) Alternation of generations (4 points maximum): Topic Description (1 point each) Alternating generations Haploid stage and diploid stage. Gametophyte Haploid-producing gametes. Dominant in nonvascular plants. Double fertilization in flowering plants. Gametangia; archegonia and antheridia in nonvascular plants. Sporophyte Diploid-producing spores. Heterosporous in flowering plants. Flowering plants produce seeds; nonvascular plants do not. Flowering plants produce flower structures. Sporangia (megasporangia and microsporangia). Dominant in flowering plants. (b) Mechanisms that bring female and male gametes together (4 points maximum): Nonvascular Plants (1 point each) Flowering Plants (1 point each) Aquatic—requires water for motile sperm Terrestrial—pollination by wind, water, or animal Micropyle in ovule for pollen tube to enter Pollen tube to carry sperm nuclei Self- or cross-pollination Antheridia produce sperm Gametophytes; no antheridia or archegonia Archegonia produce egg Ovules produce female gametophytes/gametes Pollen: male gametophyte that produces gametes © 2009 The College Board. All rights reserved. Visit the College Board on the Web: www.collegeboard.com.
    [Show full text]
  • Starch Biosynthesis in the Developing Endosperms of Grasses and Cereals
    Review Starch Biosynthesis in the Developing Endosperms of Grasses and Cereals Ian J. Tetlow * and Michael J. Emes Department of Molecular and Cellular Biology, College of Biological Science, University of Guelph, Guelph, ON N1G 2W1, Canada; [email protected] * Correspondence: [email protected]; Tel.: +1-519-824-4120 Received: 31 October 2017; Accepted: 27 November 2017; Published: 1 December 2017 Abstract: The starch-rich endosperms of the Poaceae, which includes wild grasses and their domesticated descendents the cereals, have provided humankind and their livestock with the bulk of their daily calories since the dawn of civilization up to the present day. There are currently unprecedented pressures on global food supplies, largely resulting from population growth, loss of agricultural land that is linked to increased urbanization, and climate change. Since cereal yields essentially underpin world food and feed supply, it is critical that we understand the biological factors contributing to crop yields. In particular, it is important to understand the biochemical pathway that is involved in starch biosynthesis, since this pathway is the major yield determinant in the seeds of six out of the top seven crops grown worldwide. This review outlines the critical stages of growth and development of the endosperm tissue in the Poaceae, including discussion of carbon provision to the growing sink tissue. The main body of the review presents a current view of our understanding of storage starch biosynthesis, which occurs inside the amyloplasts of developing endosperms. Keywords: amylopectin; amylose; cereals; debranching enzymes; endosperm; forage grasses; Poaceae; starch; starch synthase; starch branching enzyme 1. Introduction The grasses can rightly be regarded as a cornerstone of human civilization.
    [Show full text]
  • Molecular Control of Oil Metabolism in the Endosperm of Seeds
    International Journal of Molecular Sciences Review Molecular Control of Oil Metabolism in the Endosperm of Seeds Romane Miray †, Sami Kazaz † , Alexandra To and Sébastien Baud * Institut Jean-Pierre Bourgin, INRAE, CNRS, AgroParisTech, Université Paris-Saclay, 78000 Versailles, France; [email protected] (R.M.); [email protected] (S.K.); [email protected] (A.T.) * Correspondence: [email protected] † These authors contributed equally to this work. Abstract: In angiosperm seeds, the endosperm develops to varying degrees and accumulates different types of storage compounds remobilized by the seedling during early post-germinative growth. Whereas the molecular mechanisms controlling the metabolism of starch and seed-storage proteins in the endosperm of cereal grains are relatively well characterized, the regulation of oil metabolism in the endosperm of developing and germinating oilseeds has received particular attention only more recently, thanks to the emergence and continuous improvement of analytical techniques allowing the evaluation, within a spatial context, of gene activity on one side, and lipid metabolism on the other side. These studies represent a fundamental step toward the elucidation of the molecular mechanisms governing oil metabolism in this particular tissue. In particular, they highlight the importance of endosperm-specific transcriptional controls for determining original oil compositions usually observed in this tissue. In the light of this research, the biological functions of oils stored in the endosperm of seeds then appear to be more diverse than simply constituting a source of carbon made available for the germinating seedling. Keywords: seed; endosperm; oil; fatty acid; metabolism Citation: Miray, R.; Kazaz, S.; To, A.; Baud, S.
    [Show full text]
  • The Genetics and Morphology of Some Endosperm Characters in Maize
    The Genetics and Morphology of Some Endosperm Characters in Maize . - P. C. MANGELSDORF The Genetics and Morphology of Some Endosperm Characters in Maize P. C. MANGELSDORF The Bulletins of this Station are mailed free to citizens of Connecticut who apply for them, and to other applicants as far as the editions permit. CONNECTICUT AGRICULTURAL EXPERIMENT STATION OFFICERS AND STAFF as of June, 1926 BOARD OF CONTROL His Excellency, John H. Trumbull, ex-oficio, President. Charles R. Treat, Vice President ................................Orange George A. Hopson, Secretary ............................Mount Carmel Wm. L. Slate, Jr., Treasurer ...............................New Haven Joseph W. Alsop .................................................Avon Elijah Rogers ............................................. Southington Edward C. Schneider ......................................Middletown Francis F. Lincoln ............................................Cheshire STAFF. E. H. JENKINS,PII.D., Director Emeritus. Administration. WM. L. SLATE,JR., B.Sc., Director and Treasurer. MISS L. M. BRAUTLECHT,Bookkeeper and Librarian. V. BERCER,Stenographer and Bookkeeper. E;:: Li ARY E. BRADLEY,Secretary. C. E. GRAHAM,In charge of Buildings and Grounds. Chemistry: E. M. BAILEY,PH.D.. Chemist in Charge. Analvtical C. E. SHEPARD > ~aboratory. OWEN L.J. NOLANFISHER, A,B. W. T. MATHIS FRANKC. SHELDON,Laboratory Assirtant. V. L. CHURCHILL,Sampling Agent. MISS MABELBACON, Stenographer. Biochemical T. B. OSRORNE,PH.D., Chemist in Charge. Laboratory. H. 13. VICKERY,PH.D., Biochemist. MISS HELENC. CANNON.B.S., Dietitian. Botany. G. P. CLINTON,Sc.D., Botanist in Charge. E. M. STODDARD,B.S., Pomologist. MISSFLORENCEA. MCCORMICK, PH.D., Pathologist. WILLISR. HUNTPH.D., Assistant in Botany. A. D. MCDONNELL, General Assistant. MRS. W. W. KELSEY,Secretary. Entomology. W. E. BRITTON,PH.D., Entomologist in Charge; State Entomologist. B. H. WALDEN,B.AGR.
    [Show full text]
  • Plant Reproduction | Topic Notes
    Plant Reproduction | Topic Notes Sexual reproduction is the fusion of male and female gametes to produce a diploid zygote. (The new individual is genetically different from both parents). Advantages include genetic variation, reduced competition (between parent & offspring) and good chance of surviving harsh winter. A disadvantage is that there’s a long period of growth required. Structure of flowering plant: Megaspore (egg) formation & microspore (pollen) formation: The carpel (female part of the flower) is composed of the stigma (sticky to trap pollen grains), style (supports stigma in best position to trap pollen grains) and ovary (contains 1 or more ovules which following fertilisation will develop into seeds). The stamen (male part of the flower) is composed of the anther (produces pollen grains) and filament (supports anther in best position to transport pollen grains). Sepals support the developing flower before it blooms. Petals may be bright coloured in insect pollinated plants (to attract them). The receptacle is the organ from which the flower develops and functions in supporting it. Pollination is the transfer of pollen from the anther to the stigma of a flower of the same species. It may be: 1. Self-pollination: the transfer of pollen from the anther to the stigma in the same plant. 2. Cross-pollination: the transfer of pollen from the anther to the stigma of a different plant but of the same species. 1 Plant Reproduction | Topic Notes Fertilisation is the union of a haploid male gamete with a haploid female gamete, to produce a diploid zygote. Once a pollen grain has landed on the stigma, the tube nucleus moves down through the stigma and style forming a pollen tube and enters the ovule at the micropyle, guided towards the egg by chemotropism, the tube nucleus then degenerates.
    [Show full text]
  • Plant Diversity Unique Plant Adaptations Alternation Of
    8/9/2010 Land plants Origins Shared ancestor with green algae. Plant Diversity Researchers have identified green algae called charophyceans as the closest The Evolution of the relatives of land plants Photosynthetic Terrestrial Plants Unique Plant Adaptations First true land plants were short Adaptations for a terrestrial existence and required water for reproduction 1) Roots --anchoranchor the plant and absorb water & nutrients from the soil. 2) Cuticle ––aa waxy coating to prevent drying out 3) Stomata ––porespores in the leaves and stems that allow for gas exchange. 4) Conducting vessels ––forfor transport of water , minerals, and sugars through the plant body. 5) Lignin --StiffeningStiffening and support of stems. 6) Unique reproductive structures e.g. pollen –– for transporting gametes. Alternating Generations Alternation of Generations In more advanced plants sporophyte generation dominant. The alternating life cycle of plants that involves changes between a: 1)Sporophyte generation AND………. 2) G ametophyte generation 1 8/9/2010 Mosses & nonvascular plants have life Contrasting the Generations cycles dominated by gametophytes Hairy-cap moss Sporophyte Gametophyte Diploid state (double set Haploid state (half the Brown Capsule of chromosomes in cells –– amount of chromosomes full set) in cells) Sporophyte Produces seeds in seed Produces the gametes bearing plants i.e. (sperm & egg). Makes spores Predominant form in Gametophyte Predominant form in mosses & ferns (lower higher plants e.g. trees. plants). (Green & leafy) Characteristics of Mosses Life Cycle of Mosses Division Bryophytes The sporophyte forms on, and is nourished by, the dominant gametophyte Nonvascular (don’t have special methods of conducting water & minerals) ––tendtend to be very small.
    [Show full text]
  • Seed Dispersal: Part 2 in Seed Dispersal Part 2, Find out Three Ways That Seeds Are Dispersed from the Initial Seed Producing Plant: Wind, Water, and Gravity
    Finally Fall: Seed Dispersal: Part 2 In Seed Dispersal Part 2, find out three ways that seeds are dispersed from the initial seed producing plant: wind, water, and gravity. Seed Dispersal Part 1 focused on the movement of seeds from the parent plant to different areas of the environment and that gravity alone, wildlife and humans are often involved. Plants disperse their seeds throughout an ecosystem and this limits competition of necessary resources like sunlight as they grow and mature. Seed Dispersal by Wind Seed dispersal by wind is a very common mechanism. Use the space below to make predictions about how wind is involved in seed dispersal. Do you know any plant species where wind disperses their seeds? ___________________________________________________________________________________________ ___________________________________________________________________________________________ ___________________________________________________________________________________________ Wind is the main source of seed dispersal for many native plants. Have you ever seen a little yellow dandelion? Have you ever looked at that same flower and noticed that it has turned fluffy and white? The fluff you may have seen were the seeds of the dandelion! Generally, when flowers are at the end of their life cycle they will go to seed, which means the plant will use its energy to focus on reproduction. In the case of a dandelion, seeds are so light and fluffy, they are easily transported by the wind as it blows. Other factors can help the wind pick up the seeds. For example, if an animal walks into the dandelion that has gone to seed, the seeds may be released from the stalk of the plant. Seeds then can be transported by the wind even more effortlessly, having gotten a jump start on the process thanks to that animal.
    [Show full text]
  • Lesson 6: Plant Reproduction
    LESSON 6: PLANT REPRODUCTION LEVEL ONE Like every living thing on earth, plants need to make more of themselves. Biological structures wear out over time and need to be replaced with new ones. We’ve already looked at how non-vascular plants reproduce (mosses and liverworts) so now it’s time to look at vascular plants. If you look back at the chart on page 17, you will see that vascular plants are divided into two main categories: plants that produce seeds and plants that don’t produce seeds. The vascular plants that do not make seeds are basically the ferns. There are a few other smaller categories such as “horse tails” and club mosses, but if you just remember the ferns, that’s fine. So let’s take a look at how ferns make more ferns. The leaves of ferns are called fronds, and brand new leaves that have not yet totally uncoiled are called fiddleheads because they look like the scroll-shaped end of a violin. Technically, the entire frond is a leaf. What looks like a stem is actually the fern’s equivalent of a petiole. (Botanists call it a stipe.) The stem of a fern plant runs under the ground and is called a rhizome. Ferns also have roots, like all other vascular plants. The roots grow out from the bottom of the rhizome. Ferns produce spores, just like mosses do. At certain times of the year, the backside of some fern fronds will be covered with little dots called sori. Sori is the plural form, meaning more than one of them.
    [Show full text]