The Flow of Matter through Ecosystems. Water, Carbon, Oxygen and Nitrogen  Living things need water, oxygen, carbon, and nitrogen to survive.  These.

Slides:

Advertisements

Similar presentations

Cycles of Matter December 7th, 2012.

Advertisements

Cycles of Matter.

Cycles of Matter Organisms are mainly composed of C, H, O & N

Sustainable Ecosystems. Nutrient Cycles and Energy Flow All life on earth requires water and food. Water provides the liquid component that makes up cells.

The Carbon and Nitrogen Cycles

Nitrogen Cycle Nitrogen moves from the air to the soil, into living things, and back to the air.

Water cycle Carbon/Oxygen Cycle Nitrogen Cycle

Cycles of Matter. Cycles of Matter: Why? Because we have a fixed amount of STUFF (matter) on this planet, and no new stuff is being added from the universe.

Cycles of Matter:.

ECOSYSTEM RECYCLING Material Cycles. As energy & matter move through ecosystem matter must be recycle and reused Types of Cycle 1. Carbon & Oxygen Cycles.

Natural Cycles Ecology Unit. Water and certain chemicals- such as carbon, oxygen, and nitrogen- are constantly being exchanged between air, water, soil,

Cycles of Matter Ecology Unit II.

Final Exam Review The Sequel. Chapter 10 Lesson 1 Energy Processing in Plants.

Cycling of Materials in Ecosystems SECTION Biogeochemical Cycles A pathway from living things, into nonliving parts of the ecosystem and back All.

Ecosystem Recycling IN.

BIOGEOCHEMICAL CYCLES. Bio: life Geo: Earth Chemical Cycle: repeats WHAT IS A BIOGEOCHEMICAL CYCLE?

Matter is not created or destroyed Law of Conservation of Matter.

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.

2.2 Cycles of Matter. Water cycle A continuous process by which water moves from Earth’s surface to the atmosphere and back.

Ecology – Water, Nitrogen and Carbon Cycles

Ecology Part 6 Carbon & Nitrogen Cycles R. Martinez, 2012.

Biogeochemical Cycles. What is a cycle? Some are simple Some are complex.

Gateway Review Chemistry Ecology Review. Energy Flow flow of energy through an ecosystem flow: Producers  Consumers  Decomposers Food Chains – series.

Cycles Matter can cycle through the biosphere because biological systems do not use up matter, they transform it. Matter is Recycled within and between.

THE CARBON CYCLE.

What goes around comes back around!

Cycling of Matter Carbon Cycle Nitrogen Cycle.

1) 2) 3) 4) 5) 6) The Carbon Cycle Carbon dioxide in the air Plants take in CO 2 for photosynthesis and release O 2. Organisms take in O 2 for cellular.

Cycles in Nature.  Where matter is recycled but never replenished. –It is never lost.  Sunlight= primary source of energy.

Chapter 6 lesson 6 What cycles in our ecosystem. I.Recycling Matter 1.Decomposers eat wastes & dead matter and put the nutrients back into the soil= their.

The Carbon Cycle IN:.

5.02 Relationship of carbon cycle to photosynthesis and respiration.

Water, nitrogen, carbon, and oxygen.  Bio.2.1 Analyze the interdependence of living organisms within their environments.  Bio Analyze the flow.

1.2 Nutrient Cycles and Energy Flow (Part 1) pp

Cycling of Matter Chapter 2 Section 3.

Cycles of Nature. Water Cycle: Review: As we have already learned, water is constantly being cycled and recycled in an ecosystem.

Lesson 5 The Flow of Matter through Ecosystems. Water, Carbon, Oxygen and Nitrogen  Living things need water, oxygen, carbon, and nitrogen to survive.

Cycles in Nature. Water, Carbon, and Nitrogen  Living things need water, carbon, and nitrogen.  These materials flow (cycle) through an ecosystem. 

2.2 Cycles of Matter. Water cycle A continuous process by which water moves from Earth’s surface to the atmosphere and back.

Ecosystem Cycles: Carbon Part 2. The Carbon Cycle 1. Every organic molecule contains the element carbon. A. Carbon and oxygen form carbon dioxide gas.

The Cycles of Matter.

Do Now Please hand in your outlines into the bin. Make sure your name is at the top. Then answer: Why is it important to living organisms that nutrients.

NUTRIENT CYCLES WITHIN ECOSYSTEMS

Carbon/Oxygen Cycle.

Chapter 22, section 2: Cycles of matter page 746

Cycling of Matter and Nutrient Cycles

Cycles in Nature Energy transfers.

The Carbon Cycle 1. Every organic molecule contains the element carbon. A. Carbon and oxygen form carbon dioxide gas (CO2), an important component of.

Biogeochemical Cycles

Cycles in Nature 13.2.

CYCLES OF NATURE.

Systems & Interactions in Nature

Unit: Ecology Chapter 11: Ecosystems and Biomes

Abiotic Cycles.

Lesson 5 The Flow of Matter through Ecosystems

The Cycles of Matter.

Nitrogen Carbon water 7th science Malnory/Pietsch.

Ecology Part 6 Carbon & Nitrogen Cycles

The Carbon Cycle.

Abiotic Cycles.

Cycles in Earth Systems

Cycles in Nature.

The Cycles of Matter.

The Cycles of Matter.

Abiotic Cycles.

Cycles of Matter The supply of matter in an ecosystem is limited, therefore it needs to be recycled. Matter in an ecosystem includes water, oxygen, carbon.

Biogeochemical Cycles

Nutrient Cycling Matter cannot be replenished like the energy from sunlight. Matter must be recycled.

Environmental Sciences

Presentation transcript:

The Flow of Matter through Ecosystems

Water, Carbon, Oxygen and Nitrogen  Living things need water, oxygen, carbon, and nitrogen to survive.  These materials flow (cycle) through an ecosystem.

The Water Cycle - Plants  Water cycles between organisms and the environment.  Plants take water from the soil through their roots. Most of the water is needed for photosynthesis (making food).  Plants return water to the environment by transpiration. Transpiration is the release of water to the air through a plant’s leaves.

The Water Cycle - Animals  Animals take in water from the environment by drinking.  Animals release water to the air when they exhale.  They also return water to the environment by perspiring and by urinating.

The Carbon Cycle 1.During photosynthesis, plants take carbon in the form of carbon dioxide from the air and it becomes part of their food (glucose). 2.Animals take in carbon by eating plants or other animals, which they then digest. This carbon is released during cellular respiration and exhaled is by animals. Cellular respiration is the process where energy is released from food.

The Carbon Cycle 3. There is also carbon in an animal’s waste. Decomposers use these wastes for food and go through cellular respiration, releasing the carbon into the air in the form of carbon dioxide. 4.When animals die, their bodies may be either eaten by vultures or other scavengers. or digested by decomposers. Both scavengers and decomposers go through cellular respiration, giving off more carbon dioxide.

The Carbon Cycle 5.In certain conditions, both animal and plant remains may become fossilised and eventually form fossil fuels (coal, oil and gas) which contain carbon. Both fossil fuels and plant material (wood) may later be burned - releasing still more carbon dioxide to the environment.

The Carbon Cycle

Nitrogen  Although we are surrounded by nitrogen gas, and organisms need nitrogen to live, most organisms cannot use the nitrogen gas around them.  Nitrogen must be combined with other elements, such as hydrogen, in order to be used by organisms.  This process is called nitrogen fixation.

Nitrogen Fixation 1.A special type of bacteria that grows on the roots of certain plants can perform nitrogen fixation. 2.A lightning bolt can split the two nitrogen atoms of a nitrogen molecule, allowing the "free" nitrogen atoms to combine with oxygen and hydrogen atoms.

Nitrogen Fixation

The Nitrogen Cycle  Nitrogen cycles through an environment. The following diagrams show how nitrogen moves from one place to another in the environment.

Nitrogen in the soil is absorbed by plants then is taken into animals when the animals eat the plants.

Nitrogen in the animal can be released into the air through breathing, sweating, and urinating. It can be returned to the soil through the animal’s waste.

Nitrogen in the animal’s body is returned to the soil when the animal dies and decomposes.