Presentation is loading. Please wait.

Presentation is loading. Please wait.

Biogeochemical Cycles. Need to consider interactions between abiotic (non living) and biotic (living) factors. Also consider energy flow and chemical.

Published byLynette Mildred Jones Modified over 8 years ago

Similar presentations

Presentation on theme: "Biogeochemical Cycles. Need to consider interactions between abiotic (non living) and biotic (living) factors. Also consider energy flow and chemical."— Presentation transcript:

1 Biogeochemical Cycles

2 Need to consider interactions between abiotic (non living) and biotic (living) factors. Also consider energy flow and chemical cycling.

3 Carbon, nitrogen and oxygen can be recycled between living and non- living things in an ecosystem and the biosphere.

4 Even though energy flow and chemical cycling are different in nature, they are related to feeding patterns within ecosystems…

5 Chemical Cycling Producers incorporate chemicals from non- living environment into organic compounds. Consumers feed on producers, incorporating some chemicals into their bodies and release some as waste. As organisms die, decomposers break them down to supply chemicals in the inorganic form for soil, water and air. Three types of cycling: ◦ Carbon and Oxygen Cycle ◦ Nitrogen Cycle ◦ Water Cycle

6 Carbon and Oxygen Cycle In the atmosphere carbon is found in its inorganic form CO 2. Producers use the CO 2 to form organic compounds during photosynthesis. During cellular respiration, both producers and consumers break down organic compounds and release CO 2 as a waste product. Non-living processes contribute to CO 2 production:

7 ◦ Burning of fossil fuels  Oil  Coal  Natural gas ◦ Burning of wood ◦ Forest fires ◦ Human activities ◦ Volcanic eruptions

8 Carbon and Oxygen Cycle

9 Nitrogen Cycle Nitrogen ◦ Found in all living organisms ◦ An element of Amino Acids  Produce proteins ◦ Makes up 80% of the Earth’s atmosphere ◦ Producers can use it in the form of ammonium or nitrate  Nitrogen fixation ◦ Nitrogen gas to ammonia  Nitrification ◦ Ammonium to nitrates

10 Nitrogen Cycle

11 Water Cycle Solar energy evaporates water from land and water surfaces adding gaseous water vapor into the atmosphere. Water vapor cools and condenses falling to the ground as precipitation. ◦Rain ◦Snow ◦Hail ◦Sleet Plants get water from soil, consumers by eating and drinking.

12 Some water can be lost by plants through the process called transpiration, which is then evaporated into the atmosphere. Water not retained by plants or soil will run off into rivers and streams, or restore ground waters.

13 Water Cycle

Download ppt "Biogeochemical Cycles. Need to consider interactions between abiotic (non living) and biotic (living) factors. Also consider energy flow and chemical."

Similar presentations

Unit 1 Ecosystems Cycles of Matter.

Unit 1 Ecosystems Cycles of Matter.
1. Review- By what two processes is water cycled from land to the atmosphere Sequence- Describe one way in which water from Lake Superior may make one.

1. Review- By what two processes is water cycled from land to the atmosphere Sequence- Describe one way in which water from Lake Superior may make one.
Cycles in Matter Chapter 3.4.

Cycles in Matter Chapter 3.4.
The Water Cycle Water cycles between the oceans, atmosphere and land. All living organisms require water. A. Water enters the atmosphere as water vapor,

The Water Cycle Water cycles between the oceans, atmosphere and land. All living organisms require water. A. Water enters the atmosphere as water vapor,
Ecological Cycles Vocabulary words.

Ecological Cycles Vocabulary words.
Biogeochemical Cycles

Biogeochemical Cycles
Ecosystem Cycles: Water, Carbon, and Nitrogen Cycles

Ecosystem Cycles: Water, Carbon, and Nitrogen Cycles
Biogeochemical Cycles

Biogeochemical Cycles
Label each organism in the above food web: producer, primary consumer, secondary consumer, Tertiary consumer, herbivore, carnivore, omnivore.

Label each organism in the above food web: producer, primary consumer, secondary consumer, Tertiary consumer, herbivore, carnivore, omnivore.
Biogeochemical Cycles

Biogeochemical Cycles
Lesson Overview Lesson Overview Cycles of Matter Lesson Overview 3.4 Cycles of Matter.

Lesson Overview Lesson Overview Cycles of Matter Lesson Overview 3.4 Cycles of Matter.
The Chemical Cycles. Unlike energy, matter can be recycled. The Water, Carbon, and Nitrogen Cycles are the three main ways matter is recycled in the environment.

The Chemical Cycles. Unlike energy, matter can be recycled. The Water, Carbon, and Nitrogen Cycles are the three main ways matter is recycled in the environment.
The Chemical Cycles Unlike energy, matter can be recycled. The Water, Carbon, and Nitrogen Cycles are the three main ways matter is recycled in the environment.

The Chemical Cycles Unlike energy, matter can be recycled. The Water, Carbon, and Nitrogen Cycles are the three main ways matter is recycled in the environment.
Ecosystem Recycling IN.

Ecosystem Recycling IN.
Cycles Unit 4 Section 3. Water Cycle Water constantly moves between the oceans, atmosphere and the land It can be inside or outside of living organisms.

Cycles Unit 4 Section 3. Water Cycle Water constantly moves between the oceans, atmosphere and the land It can be inside or outside of living organisms.
Nutrient Cycles -Academic Water Cycle (pg.) 1. The movement of water between the oceans, atmosphere, land and living things is the water cycle. 2. Evaporation.

Nutrient Cycles -Academic Water Cycle (pg.) 1. The movement of water between the oceans, atmosphere, land and living things is the water cycle. 2. Evaporation.
Chemical Cycles in the Ecosystem By: Marissa Pioso, Amanda Clark, and Harry Cramer.

Chemical Cycles in the Ecosystem By: Marissa Pioso, Amanda Clark, and Harry Cramer.
Ecosystems Section 3 Ecology 4.3 Notes. Ecosystems Section 3 Objectives Describe each of the biogeochemical cycles.

Ecosystems Section 3 Ecology 4.3 Notes. Ecosystems Section 3 Objectives Describe each of the biogeochemical cycles.
Chapter 3 The Biosphere Section 3-3; pages 74-80

Chapter 3 The Biosphere Section 3-3; pages 74-80
Biogeochemical Cycles

Biogeochemical Cycles

Similar presentations

Ads by Google