Investigative Science 2007-2008 PODs (p. 91) March 31-April 1 Define the following words. You may use a textbook. 1. What is the definition of respiration?

Slides:

Advertisements

Similar presentations

Cycles of Matter.

Advertisements

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

Unit 1 Ecosystems Cycles of Matter.

Cycles in Nature ¨ Law of Conservation of Matter” Matter cannot be created nor destroyed in any chemical reaction. It can only be transformed from one.

Biogeochemical Cycles

The Carbon Cycle The carbon cycle is the movement of carbon from the nonliving environment into living things and back Carbon is the essential component.

Biogeochemical Cycles Cycling of Organic Matter Week 3 Bio 20 Cyber High.

ECDCICA - CYCLES MATTER MUST CYCLE.

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 OF MATTER The Water Cycle Nutrient Cycles The Carbon Cycle

Cycles in Matter Chapter 3.4.

Biogeochemical Cycles Water Carbon Nitrogen. 4 ATOMS make up 95% of the body in most organisms CARBON HYDROGEN OXYGEN NITROGEN The same molecules are.

The Nitrogen Cycle. Nitrogen The most abundant element in earth’s atmosphere = approximately 78%. Used to carry out many life functions. Especially important.

The Nitrogen Cycle. Nitrogen Cycle Nitrogen is an element. It is found in living things like plants and animals. It is also an important part of non-living.

The Carbon and Nitrogen Cycles

The Carbon Cycle.

TAKS 8 th Grade Science Review Objective 5 Earth and Space Systems.

N2 Nitrogen Cycle What is the NITROGEN CYCLE? The atoms of nitrogen moves from the atmosphere to the soil, through plants and animals, and back into.

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

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

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

Carbon Cycle  Exchange of carbon between environment & living things.  All living organisms contain carbon  Plants use CO 2 from air to make food through.

Carbon & Nitrogen Cycles. Recycling Matter All things living are made of matter Total amount of matter on Earth is limited, so it must be recycled again.

Ecosystems Section 3 Ecology 4.3 Notes. Ecosystems Section 3 Objectives Describe each of the biogeochemical cycles.

Biogeochemical Cycles. The movement of nutrients from the nonliving world into living organisms, and then back again.

Carbon Cycle Key points.

Carbon Cycle Chapter 5-Section 2: p. 132, also p. 125 & 128.

Cycles of Matter. Recycling in the Biosphere Energy and matter move through the biosphere very differently. Unlike the one-way flow of energy, matter.

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

Biogeochemical Cycles. What is ecology?  The scientific study of interactions among organisms and between organisms and their environment is ecology.

Cycles of Matter Unit 2: “Live and Let Die” Chapter 3.

BioGeoChemical Cycles. ENERGY & MATTER Energy is not the only thing that moves through the ecosystem. Atoms are never destroyed... only transformed. Take.

Cycling of Matter Carbon Cycle Nitrogen Cycle.

III. Cycles of Matter *While energy is crucial to an ecosystem, all organisms need water, minerals, and other life-sustaining compounds to survive. In.

BIOGEOCHEMICAL CYCLES Water Cycle Song (1:21 min):

CYCLES OF MATTER NATURAL WORLD. Objectives Describe how matter cycles between the living and nonliving parts of an ecosystem. Explain why nutrients are.

Our unit on Ecology continues… Part 2..  The combined portions of the planet in which all life exists, including land, water, air and the atmosphere.

MATTER CYCLING IN ECOSYSTEMS Nutrient Cycles: Global Recycling –Global Cycles recycle nutrients through the earth’s air, land, water, and living organisms.

Biogeochemical Cycles

The Carbon Cycle.

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

 Matter is recycled (it changes form, but never leaves)  Energy is not recycled.

How Ecosystems WorkSection 2 Section 2: The Cycling of Matter Preview The Carbon Cycle How Humans Affect the Carbon Cycle The Nitrogen Cycle Decomposers.

Cycling of Matter in Ecosystems

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

 part of Earth where life exists  located near Earth’s surface where sunlight available  plants need sunlight to produce food - almost every other.

18.2 The Carbon and nitrogen cycle

Ecology 4.3 Notes.

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.

The Nitrogen Cycle.

NUTRIENT CYCLES WITHIN ECOSYSTEMS

CenUSA Bioenergy High School Curriculum Lesson 4

The Carbon Cycle.

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 3-3

Introduction to Nutrient Cycles

The Nitrogen Cycle.

The Carbon Cycle & The Nitrogen Cycle

The Biosphere- Chapter 8

The Nitrogen Cycle.

Cycles in Earth Systems

Cycles in Nature.

The Nitrogen Cycle.

Biogeochemical Cycles

The Nitrogen Cycle.

Cycles of Matter.

Carbon Cycle Exchange of carbon between environment & living things.

Nutrients are types of matter needed by all living things

Presentation transcript:

Investigative Science PODs (p. 91) March 31-April 1 Define the following words. You may use a textbook. 1. What is the definition of respiration? 2. What is the definition of denitrification? 3. What is the definition of combustion?

Investigative Science Carbon and Nitrogen Cycles Matter is neither created nor destroyed…. Therefore it has to cycle around the Earth.

Investigative Science Carbon is always on the move Carbon is an element. It is part of oceans, air, rocks, soil and all living things. Carbon doesn’t stay in one place. It is always on the move!

Investigative Science Carbon Cycle Reservoirs Atmosphere: Carbon is stored as Carbon Dioxide Living things: All living things on Earth are made up of Carbon. Fossils: Carbon can be transformed into fossil fuels if buried for long periods of time Rocks: Carbon is a major component of rocks. Limestone for example is made of Calcium Carbonate. Oceans: Carbon can freely move in between the oceans and atmosphere. It is used to make shells, coral and other components of the ocean.

Investigative Science Processes of the Carbon Cycle Photosynthesis: The process of plants taking carbon dioxide (CO 2 ) out of the atmosphere and converting it into oxygen (O 2 ) 6CO 2 + 6H 2 O  C 6 H 12 O 6 + 6O 2 C 6 H 12 O 6 is a sugar called glucose Within the plant a process called cellular respiration converts glucose into ATP (energy) ATP stands for Adenosine Triphosphate. Large amounts of energy are stored in the chemical bonds. When they are broken they release energy that can be used!

Investigative Science Processes of the Carbon Cycle Respiration: The process of releasing Carbon Dioxide back to the atmosphere. C 6 H 12 O 6 + 6O 2 → 6CO 2 + 6H 2 O + ATP Respiration occurs in both plants and animals. When we breathe we inhale oxygen and exhale carbon dioxide!

Investigative Science What’s Glucose? Glucose, C 6 H 12 O 6, is a simple sugar. Can you answer the following questions about it? 1. How many atoms of carbon does glucose have? Hydrogen? Oxygen? 2. How many atoms does glucose have in total? 3. How many molecules of glucose does respiration use?

Investigative Science Processes of the Carbon Cycle Consumption: When animals eat plants carbon passes from plants to animals. The only way animals get carbon is through eating it. Decay/Decomposition: When animals die. Decay releases carbon. Animal remains can also be transformed into fossil fuels if they are buried long enough. Refining: Crude fossil fuels are refined into useable forms of fuel such as gasoline. Combustion: When fossil fuels are burned they release carbon dioxide back to the atmosphere.

Investigative Science Processes of the Carbon Cycle Exchange with Oceans: carbon dioxide can freely move between the atmosphere and the ocean. The oceans are one of the largest sinks (reservoirs) for carbon. Release from forest fires: When trees in the forest are burned carbon is released into the atmosphere

Investigative Science What do you think? Carbon naturally cycles around the earth dynamically. Humans can influence and change some parts of the cycle, such as combustion and forest fires. What does human influence mean for the future earth?

Investigative Science The Carbon Cycle Game

Investigative Science PODs (p.94) April Glucose is a ________ and has the formula C 6 H 12 O 6 2. ATP is a form of _________. 3. ATP is created during the process of _______________. 4. The ______ is the driving energy force of the water cycle.

Investigative Science The Nitrogen Cycle Nitrogen is an element. A member of the halogen family. It is found in living things like plants and animals. It is also an important part of non-living things like the air above and the dirt below. Atoms of nitrogen don't just stay in one place. They move slowly between living things, dead things, the air, soil and water. These movements are called the nitrogen cycle.

Investigative Science Nitrogen Cycle Reservoirs Atmosphere: Approximately 80% of the molecules in Earth's atmosphere are made of two nitrogen atoms bonded together (N 2 ). Living Things: All plants and animals need nitrogen to make amino acids, proteins and DNA, but the nitrogen in the atmosphere is not in a form that they can use. Genetic Material: Nitrogen (N) is an essential component of DNA, RNA, and proteins, the building blocks of life.DNARNAproteins

Investigative Science Processes of the Nitrogen Cycle Nitrogen Fixation: By bacteria: Plants and animals cannot take nitrogen directly out of the atmosphere. Therefore, it must be fixed, or taken out of the atmosphere, by bacteria. These bacteria live in symbiosis with legumes, a simple nut like dried fruit within the soil. By lightning, forest fires and hot lava flows: These events fixate small amount of nitrogen. The energy is enough to break the bonds that hold two nitrogen atoms together and free up nitrogen for other chemical processes.

Investigative Science Processes of the Nitrogen Cycle Nitrogen Uptake: Nitrogen is usually quickly incorporated into protein and other organic nitrogen compounds, either by a host plant, the bacteria itself, or another soil organism. When organisms nearer the top of the food chain (like us!) eat, we are using nitrogen that has been fixed initially by nitrogen fixing bacteria. proteincompoundsorganism organisms

Investigative Science Processes of the Nitrogen Cycle Denitrification: The loss or removal of nitrogen or nitrogen compounds; specifically: reduction of nitrates or nitrites commonly by bacteria (as in soil) that usually results in the escape of nitrogen into the air. compounds

Investigative Science Processes of the Nitrogen Cycle Decay: When organisms die, their bodies decompose bringing the nitrogen into soil on land or into ocean water. Bacteria alter the nitrogen into a form that plants are able to use. Other types of bacteria are able to change nitrogen dissolved in waterways into a form that allows it to return to the atmosphere.

Investigative Science Impacts of Humans Certain actions of humans are causing changes to the nitrogen cycle and the amount of nitrogen that is stored in the land, water, air, and organisms. The use of nitrogen-rich fertilizers can add too much nitrogen in nearby waterways as the fertilizer washes into streams and ponds. The waste associated with livestock farming also adds large amounts of nitrogen into soil and water. The increased nitrate levels cause plants to grow rapidly until they use up the supply and die.

Investigative Science The Nitrogen Cycle