Plant Kingdom: Study Guide Questions BIOLOGY 1. What do all

... 1. What do all plants have in common? (p.288) 2. What kind of plants are non-vascular? How are non-vascular plants different from vascular plants? (p.288) 3. What is the difference between gymnosperms and angiosperms? (p. 294) 4. Choose three biomes and describe how plants are adapted to their envir ...

Plant Diversity Lab 2 Slide Show

... - because flowering plants can develop fruit from their flowers, they can disperse their seeds using a myriad of mechanisms such as wind, water, animal, or self dispersal. Pollination can be carried out by a variety of agents such as insects, birds, mammals, as well as by wind. Flowers actually evo ...

1 - contentextra

... 10 The cohesion–tension theory explains the movement of water and minerals upwards in the xylem of plants. The movement depends on cohesion and adhesion maintaining a constant column of water in the xylem. 11 The movement of organic molecules in plants is called translocation. Phloem sap includes mo ...

File

... • Conifers adapted to temperate to cold regions • Narrow leaves (needles) help to conserve water • Covered by resins – for protection from predators, fire, etc. ...

CHAPTER 30 - Doral Academy Preparatory

... from the anther The pollen grows a tube down through the style Meiosis occurs in the ovary to produce haploid ovules ...

Parts of a Flower.pub

... A stamen consists of an anther (which produces pollen, the male reproductive cell) and a filament. ...

answers - Biology Resources

... nucleus of the egg cell. After fertilisation, the ovule becomes the seed and the ovary becomes the fruit. 6 Statement (a) is correct, though normally fertilisation will follow pollination if the pollen and stigma are compatible. 7 Characteristics which are regarded as adaptations to pollination by b ...

NVCplant labF2016 - Napa Valley College

... • They photosynthesize, using a cell organelle called a chloroplast. • They have adaptations to living on land and have evolved as terrestrial organisms. • Their leaves and other above-ground parts have a cuticle of wax that protects them from drying out in the terrestrial environment. • Their cells ...

How Do You Know It`s Spring?

... ...

Chapter 38

... 5. The functional megaspore enlarges at the expense of the other cells of the nucellus. 6. This nucleus inside the cell divides mitotically twice, forming first four nuclei and then eight nuclei. 7. The eight nuclei separate and form six small cells and one large cell, the megagametophyte or female ...

Chapter 30 Plant Diversity II: Evolution of Seed Plants

... Contain microsporocytes (2n) that produce microspores (n) that produce the male gametophyte ...

Group 3: Seed producing, Vascular Plants

... 3) Pollen grain sticks to the female ovule 4) Pollen tube grows from the male spore 5) Two nuclei transfer into female spore - one fertilizes the egg 6) Diploid embryo develops (sporophyte stage restarts) ...

Seed Dispersal and Germination

... weeks, months, or even years until the seeds begin to grow into new plants. • Scientists recently found a 2000-year-old seed that came from an extinct species of tree. When they gave it the proper conditions to grow, it became a new plant. ...

Plant Kingdom

... and an egg cell join together in an ovule on the female cone. After fertilization occurs, the seed develops on the scale of the female cone. pollination—fertilization—seed development—seed dispersal 25. What is an angiosperm? (pg. 276) All angiosperms produce flowers, and all angiosperms produce see ...

Plant Kingdom

... and an egg cell join together in an ovule on the female cone. After fertilization occurs, the seed develops on the scale of the female cone. pollination—fertilization—seed development—seed dispersal What is an angiosperm? (pg. 276) All angiosperms produce flowers, and all angiosperms produce seeds t ...

AP Biology Notes Outline Plant Diversity II: The Evolution of Seed

... • Heterospory (plants in which the sporophyte produces two kinds of spores that develop into either male or female gametophytes) • Ovules (structure that develops in the plant ovary and contains the female gametophyte) • Pollen (structure that contains immature male gametophyte) Evolutionary advanta ...

Powerpoint Seven - Kaskaskia College

... Perfect flower = flower with both stamens and pistils Imperfect flower = with only stamens or pistils ...

iii. plant classification

... A hormone is a chemical substance that is produced in one part of an organism and affects another part of the same individual. Plant hormones are chemical substances that control a plant’s patterns of growth and development, and the plants responses to environmental conditions. A. Tropism- response ...

PARTS OF A FLOWER

...  Sepals are special kinds of leaves that form a ring around the petals.  Their job is to protect the flower while it is still a bud. After the flower has opened, the sepals can still be seen behind the petals.  All the sepals together are called the CALYX ...

PLANTS

... protects the stamens and pistils when flower is in the bud stage b. Petals: brightly colored, protects stamen & pistils, attracts pollinating insects ...

Plant Responses to Internal and External Signals

... S Circadian rhythms are 24 hour cycles common to all ...

Art Plant Evolution The of

... on land. Gymnosperm, like bryophyte, is a term that comprises a number of different groups of plants that are related by the possession of seeds, but do not form a monophyletic evolutionarily coherent lineage. In gymnosperms the seeds are ‘naked’ and not enclosed within a fruit wall.The living gymno ...

Native Plants of Groton Informational Poster

... Gymnosperms produce seeds in a female pine cone and produce pollen in male cones. Male cones are on the bottom of the tree and female cones are at the top. Gymnosperms pollinate the female cones by releasing the pollen from males. There are a few cedars along the norther side of Sheep Farm, but in g ...

9.3 Plant Growth

... 3 types of plant tissue  All plant tissues arise from meristematic tissue  The plant version of stem cells  During division one cell stays meristematic and the other differentiates ...

vascular plants

... COTYLEDON – a seed leaf of an angiosperm embryo. Some species have one and others have two ENDOSPERM – a nutrient-rich tissue formed by the union of a sperm cell with two polar nuclei during double fertilization, which provides nourishment to the developing embryo in angiosperm seeds. FLOWER – in an ...

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Flowering plant

The flowering plants (angiosperms), also known as Angiospermae or Magnoliophyta, are the most diverse group of land plants. Angiosperms are seed-producing plants like the gymnosperms and can be distinguished from the gymnosperms by characteristics including flowers, endosperm within the seeds, and the production of fruits that contain the seeds. Etymologically, angiosperm means a plant that produces seeds within an enclosure, in other words, a fruiting plant.The ancestors of flowering plants diverged from gymnosperms around 245–202 million years ago, and the first flowering plants known to exist are from 160 million years ago. They diversified enormously during the Lower Cretaceous and became widespread around 120 million years ago, but replaced conifers as the dominant trees only around 60–100 million years ago.

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Flowering plant