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How to Use This Presentation • To View the presentation as a slideshow with effects select “View” on the menu bar and click on “Slide Show”, or simply press F5 on the top row of your keyboard. • To advance to the next slide click the left mouse button once. • From the Chapter screen you can click on any section to go directly to that section’s presentation. • Blank or “missing” areas of a slide will remain hidden until the left mouse button is clicked. • You may exit the slide show at any time by pressing the Esc key Header – white 24 points Arial Bold Body text – white 20 points Arial Bold, dark yellow highlights Bullets – dark yellow Copyright – white 12 points Arial Background name: HST-Presentation_blue.jpg, Size: Height: 7.52" Width: 10.02" Scale: 70% Position on slide: Horizontal - 0" Vertical - 0" Copyright © by Holt, Rinehart and Winston. All rights reserved.

Section 1: Photosynthesis Section 2: Reproduction of Flowering Plants Chapter 13 Plant Processes Section 1: Photosynthesis Section 2: Reproduction of Flowering Plants Section 3: Plant Responses to the Environment Header first line (section#) – white 24 points Arial Bold Header second line (title) – white 28 points Arial Bold Title – yellow 28 points Arial Bold Body text – white24 points Arial and Arial Bold Bullets – yellow Copyright – white 12 points Arial Background name: HST-Presentation_blue.jpg, Size: Height: 7.52" Width: 10.02" Scale: 70% Position on slide: Horizontal - 0" Vertical - 0" End of Slide Copyright © by Holt, Rinehart and Winston. All rights reserved.

Photosynthesis Bellringer Section 1 Where do you get the energy you need to stay alive? Where do the things you get your energy from get their energy? Is there an ultimate source of energy for all life on earth? Write your response in your science journal. Header first line (section#) – white 24 points Arial Bold Header second line (title) – white 28 points Arial Bold Title – yellow 28 points Arial Bold Body text – white24 points Arial and Arial Bold Bullets – yellow Copyright – white 12 points Arial Background name: HST-Presentation_blue.jpg, Size: Height: 7.52" Width: 10.02" Scale: 70% Position on slide: Horizontal - 0" Vertical - 0" Copyright © by Holt, Rinehart and Winston. All rights reserved.

Photosynthesis Objectives Section 1 Describe photosynthesis. Compare photosynthesis and cellular respiration. Describe how gas is exchanged in the leaves of plants. Describe two ways in which photosynthesis is important. Header first line (section#) – white 24 points Arial Bold Header second line (title) – white 28 points Arial Bold Title – yellow 28 points Arial Bold Body text – white24 points Arial and Arial Bold Bullets – yellow Copyright – white 12 points Arial Background name: HST-Presentation_blue.jpg, Size: Height: 7.52" Width: 10.02" Scale: 70% Position on slide: Horizontal - 0" Vertical - 0" End of Slide Copyright © by Holt, Rinehart and Winston. All rights reserved.

Capturing Light Energy Section 1 Photosynthesis Capturing Light Energy Chlorphyll Plant cells have organelles called chloroplasts. Inside the chloroplast, another membrane forms stacks called grana. Grana contain a green pigment, called chlorophyll, that absorbs light energy. Making Sugar Header first line (section#) – white 24 points Arial Bold Header second line (title) – white 28 points Arial Bold Title – yellow 28 points Arial Bold Body text – white24 points Arial and Arial Bold Bullets – yellow Copyright – white 12 points Arial Background name: HST-Presentation_blue.jpg, Size: Height: 7.52" Width: 10.02" Scale: 70% Position on slide: Horizontal - 0" Vertical - 0" Glucose The light energy captured by chlorophyll is used to help form glucose molecules. End of Slide Copyright © by Holt, Rinehart and Winston. All rights reserved.

Getting Energy from Sugar Section 1 Photosynthesis Getting Energy from Sugar Energy for Life Processes Glucose molecules store energy. Plant cells use this energy for their life processes. Gas Exchange Stomata Carbon dioxide enters the plant’s leaves through stomata (singular, stoma). Gas exchange in leaves is illustrated in the next slide. Header first line (section#) – white 24 points Arial Bold Header second line (title) – white 28 points Arial Bold Title – yellow 28 points Arial Bold Body text – white24 points Arial and Arial Bold Bullets – yellow Copyright – white 12 points Arial Background name: HST-Presentation_blue.jpg, Size: Height: 7.52" Width: 10.02" Scale: 70% Position on slide: Horizontal - 0" Vertical - 0" End of Slide Copyright © by Holt, Rinehart and Winston. All rights reserved.

Gas Exchange in Leaves Section 1 Header first line (section#) – white 24 points Arial Bold Header second line (title) – white 28 points Arial Bold Title – navy 28 points Arial Bold Body text – black 24 points Arial and Arial Bold Bullets – navy Copyright – white 12 points Arial Background name: HST-Presentation_white.jpg Size: Height: 7.52" Width: 10.02" Scale: 70% Position on slide: Horizontal - 0" Vertical - 0" Copyright © by Holt, Rinehart and Winston. All rights reserved.

The Importance of Photosynthesis Section 1 Photosynthesis The Importance of Photosynthesis Base of the Food Chain Plants and other photosynthetic organisms, such as some bacteria and many protists, form the base of nearly all food chains on Earth. Header first line (section#) – white 24 points Arial Bold Header second line (title) – white 28 points Arial Bold Title – yellow 28 points Arial Bold Body text – white24 points Arial and Arial Bold Bullets – yellow Copyright – white 12 points Arial Background name: HST-Presentation_blue.jpg, Size: Height: 7.52" Width: 10.02" Scale: 70% Position on slide: Horizontal - 0" Vertical - 0" End of Slide Copyright © by Holt, Rinehart and Winston. All rights reserved.

Reproduction of Flowing Plants Section 2 Reproduction of Flowing Plants Bellringer What are pollination and fertilization? Draw a diagram in your science journal of a flowering plant’s reproductive system. Do you think there is a difference between male plants and female plants? Write your answers in your science journal. Header first line (section#) – white 24 points Arial Bold Header second line (title) – white 28 points Arial Bold Title – yellow 28 points Arial Bold Body text – white24 points Arial and Arial Bold Bullets – yellow Copyright – white 12 points Arial Background name: HST-Presentation_blue.jpg, Size: Height: 7.52" Width: 10.02" Scale: 70% Position on slide: Horizontal - 0" Vertical - 0" Copyright © by Holt, Rinehart and Winston. All rights reserved.

Reproduction of Flowing Plants Section 2 Reproduction of Flowing Plants Objectives Describe pollination and fertilization in flowering plants. Explain how fruits and seeds are formed from flowers. List three reasons why a seed might be dormant. List three examples of asexual reproduction in plants. Header first line (section#) – white 24 points Arial Bold Header second line (title) – white 28 points Arial Bold Title – yellow 28 points Arial Bold Body text – white24 points Arial and Arial Bold Bullets – yellow Copyright – white 12 points Arial Background name: HST-Presentation_blue.jpg, Size: Height: 7.52" Width: 10.02" Scale: 70% Position on slide: Horizontal - 0" Vertical - 0" End of Slide Copyright © by Holt, Rinehart and Winston. All rights reserved.

Reproduction of Flowing Plants Section 2 Reproduction of Flowing Plants Fertilization Fertilization in Flowers In flowering plants, fertilization takes place within flowers. Pollination and fertilization are shown on the next slide. Header first line (section#) – white 24 points Arial Bold Header second line (title) – white 28 points Arial Bold Title – yellow 28 points Arial Bold Body text – white24 points Arial and Arial Bold Bullets – yellow Copyright – white 12 points Arial Background name: HST-Presentation_blue.jpg, Size: Height: 7.52" Width: 10.02" Scale: 70% Position on slide: Horizontal - 0" Vertical - 0" End of Slide Copyright © by Holt, Rinehart and Winston. All rights reserved.

Pollination and Fertilization Section 2 Pollination and Fertilization Header first line (section#) – white 24 points Arial Bold Header second line (title) – white 28 points Arial Bold Title – navy 28 points Arial Bold Body text – black 24 points Arial and Arial Bold Bullets – navy Copyright – white 12 points Arial Background name: HST-Presentation_white.jpg Size: Height: 7.52" Width: 10.02" Scale: 70% Position on slide: Horizontal - 0" Vertical - 0" Copyright © by Holt, Rinehart and Winston. All rights reserved.

Reproduction of Flowing Plants Section 2 Reproduction of Flowing Plants From Flower to Fruit Ovules and Ovaries After fertilization takes place, the ovule develops into a seed. The seed contains a tiny, undeveloped plant. The ovary surrounding the ovule becomes a fruit, as shown on next slide. Header first line (section#) – white 24 points Arial Bold Header second line (title) – white 28 points Arial Bold Title – yellow 28 points Arial Bold Body text – white24 points Arial and Arial Bold Bullets – yellow Copyright – white 12 points Arial Background name: HST-Presentation_blue.jpg, Size: Height: 7.52" Width: 10.02" Scale: 70% Position on slide: Horizontal - 0" Vertical - 0" End of Slide Copyright © by Holt, Rinehart and Winston. All rights reserved.

Seed Production Section 2 Header first line (section#) – white 24 points Arial Bold Header second line (title) – white 28 points Arial Bold Title – navy 28 points Arial Bold Body text – black 24 points Arial and Arial Bold Bullets – navy Copyright – white 12 points Arial Background name: HST-Presentation_white.jpg Size: Height: 7.52" Width: 10.02" Scale: 70% Position on slide: Horizontal - 0" Vertical - 0" Copyright © by Holt, Rinehart and Winston. All rights reserved.

Reproduction of Flowing Plants Section 2 Reproduction of Flowing Plants From Seed to Plant Sprouting When seeds are dropped or planted in a suitable environment, the seeds sprout. To sprout, most seeds need water, air, and warm temperatures. Other Methods of Reproduction Asexual Reproduction Some flowering plants can reproduce asexually through plantlets, tubers, and runners. Header first line (section#) – white 24 points Arial Bold Header second line (title) – white 28 points Arial Bold Title – yellow 28 points Arial Bold Body text – white24 points Arial and Arial Bold Bullets – yellow Copyright – white 12 points Arial Background name: HST-Presentation_blue.jpg, Size: Height: 7.52" Width: 10.02" Scale: 70% Position on slide: Horizontal - 0" Vertical - 0" End of Slide Copyright © by Holt, Rinehart and Winston. All rights reserved.

Plant Responses to the Environment Section 3 Plant Responses to the Environment Bellringer How does light affect the growth of plants? Does gravity affect plant growth? What other aspects of a plant's environment affect its growth? Do any of these same things affect your own growth and development? Record your answers in your science journal. Header first line (section#) – white 24 points Arial Bold Header second line (title) – white 28 points Arial Bold Title – yellow 28 points Arial Bold Body text – white24 points Arial and Arial Bold Bullets – yellow Copyright – white 12 points Arial Background name: HST-Presentation_blue.jpg, Size: Height: 7.52" Width: 10.02" Scale: 70% Position on slide: Horizontal - 0" Vertical - 0" Copyright © by Holt, Rinehart and Winston. All rights reserved.

Plant Responses to the Environment Section 3 Plant Responses to the Environment Objectives Describe how plants may respond to light and gravity. Explain how some plants respond to night length. Describe how some plants respond to the changes of season. Header first line (section#) – white 24 points Arial Bold Header second line (title) – white 28 points Arial Bold Title – yellow 28 points Arial Bold Body text – white24 points Arial and Arial Bold Bullets – yellow Copyright – white 12 points Arial Background name: HST-Presentation_blue.jpg, Size: Height: 7.52" Width: 10.02" Scale: 70% Position on slide: Horizontal - 0" Vertical - 0" End of Slide Copyright © by Holt, Rinehart and Winston. All rights reserved.

Plant Responses to the Environment Section 3 Plant Responses to the Environment Plant Tropisms Light The shoot of a plant’s tips bend toward the a source of light. Bending toward the light is a positive tropism. A change in the direction a plant grows that is caused by light is called phototropism. Gravity Plant growth also changes in response to the direction of gravity. This change is called gravitropism. Header first line (section#) – white 24 points Arial Bold Header second line (title) – white 28 points Arial Bold Title – yellow 28 points Arial Bold Body text – white24 points Arial and Arial Bold Bullets – yellow Copyright – white 12 points Arial Background name: HST-Presentation_blue.jpg, Size: Height: 7.52" Width: 10.02" Scale: 70% Position on slide: Horizontal - 0" Vertical - 0" End of Slide Copyright © by Holt, Rinehart and Winston. All rights reserved.

Plant Responses to the Environment Section 3 Plant Responses to the Environment Seasonal Responses Length of Day As you will see on the next slide, the difference between day length and night length is an important environmental stimulus for many plants. Seasons and Leaf Loss Deciduous trees lose all of their leaves around the same time each year. Seasons and Leaf Color the leaves of deciduous trees may change color before they are lost. As fall approaches, green chlorophyll breaks down. Orange or yellow pigments in the leaves are then revealed. Header first line (section#) – white 24 points Arial Bold Header second line (title) – white 28 points Arial Bold Title – yellow 28 points Arial Bold Body text – white24 points Arial and Arial Bold Bullets – yellow Copyright – white 12 points Arial Background name: HST-Presentation_blue.jpg, Size: Height: 7.52" Width: 10.02" Scale: 70% Position on slide: Horizontal - 0" Vertical - 0" End of Slide Copyright © by Holt, Rinehart and Winston. All rights reserved.

Night Length and Flower Color Section 3 Night Length and Flower Color Header first line (section#) – white 24 points Arial Bold Header second line (title) – white 28 points Arial Bold Title – navy 28 points Arial Bold Body text – black 24 points Arial and Arial Bold Bullets – navy Copyright – white 12 points Arial Background name: HST-Presentation_white.jpg Size: Height: 7.52" Width: 10.02" Scale: 70% Position on slide: Horizontal - 0" Vertical - 0" Copyright © by Holt, Rinehart and Winston. All rights reserved.

Plant Processes Concept Map Chapter 13 Use the following terms to complete the concept map on the next slide: evergreen, plants, stimulus, deciduous, gravitropism, phototropism, seasonal changes. Header first line (section#) – white 24 points Arial Bold Header second line (title) – white 28 points Arial Bold Title – yellow 28 points Arial Bold Body text – white24 points Arial and Arial Bold Bullets – yellow Copyright – white 12 points Arial Background name: HST-Presentation_blue.jpg, Size: Height: 7.52" Width: 10.02" Scale: 70% Position on slide: Horizontal - 0" Vertical - 0" Copyright © by Holt, Rinehart and Winston. All rights reserved.

Chapter 13 Concept Map Header first line (section#) – white 24 points Arial Bold Header second line (title) – white 28 points Arial Bold Title – navy 28 points Arial Bold Body text – black 24 points Arial and Arial Bold Bullets – navy Copyright – white 12 points Arial Background name: HST-Presentation_white.jpg Size: Height: 7.52" Width: 10.02" Scale: 70% Position on slide: Horizontal - 0" Vertical - 0" Copyright © by Holt, Rinehart and Winston. All rights reserved.

Chapter 13 Concept Map Header first line (section#) – white 24 points Arial Bold Header second line (title) – white 28 points Arial Bold Title – navy 28 points Arial Bold Body text – black 24 points Arial and Arial Bold Bullets – navy Copyright – white 12 points Arial Background name: HST-Presentation_white.jpg Size: Height: 7.52" Width: 10.02" Scale: 70% Position on slide: Horizontal - 0" Vertical - 0" Copyright © by Holt, Rinehart and Winston. All rights reserved.