The Water Cycle  Rain, snow, and sleet are examples of this step of the water cycle. a. Condensation b. Precipitation c. Evaporation d. Seepage.

Slides:

Advertisements

Similar presentations

TOPIC: Ecology AIM: How are materials cycled through the environment?

Advertisements

Write everything that is underlined

Science Standard 6d: Biogeochemical Cycles/ Nutrient Cycles Ch. 3 Sec

Cycles in Nature Ch EQ: How does matter move among the biotic and abiotic parts of an ecosystem?

The Nitrogen Cycle Section 1.9 pp Nitrogen Cycle Nitrogen is essential to living things for the production of proteins and DNA which are used.

Ecological Cycles Vocabulary words.

Evaporation: water changes from a liquid state to a gaseous state Transpiration: water exits the leaves of a plant and evaporates into the air Condensation:

THE WATER CYCLE Water moves from the oceans to the atmosphere, from the atmosphere to the land, and from the land back to the oceans.

Cycles In Nature.

 The Water Cycle Page 101. The Water Cycle -include the following terms on your water cycle poster!  Hydrosphere - all the waters on Earth  Evaporation.

Ecosystem Cycles: Water, Carbon, and Nitrogen Cycles

Biogeochemical Cycles

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

Biogeochemical Cycles WATER CYCLE Also called the Hydrologic Cycle Water is circulated through the global ecosystem. Fresh water evaporates and condenses.

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.

NITROGEN CYCLE Explains how NITROGEN moves through an ecosystem.

WATER CARBON-OXYGEN NITROGEN PHOSPHORUS

Cycling of Matter 4.3 “biogeochemical” cycles 1.WATER 2.CARBON-OXYGEN 3.NITROGEN 4.PHOSPHORUS.

Ecology: Ecosystems. Ecosystem Resources  Energy:  Energy: one way flow from sun to organisms and loss as heat (yellow, red arrows)  Nutrients:  Nutrients:

Biogeochemical Cycles of Matter Biology I Cycling maintains homeostasis Matter in the form of nutrients, moves through the organisms at each trophic.

13.5 Cycling of Matter KEY CONCEPT Matter cycles in and out of an ecosystem.

Nutrient Cycling 3.3. Energy vs. Matter  Energy flows throughout an ecosystem in ONE direction from the sun to autotrophs to heterotrophs  Matter is.

The Sun and The Water Cycle Grades 3-5. Water Cycle Changes to water when it evaporates into the air, condenses into clouds, and then precipitates back.

The Chemical Cycles By: Nikko and Lydia The 3 Main Cycles Carbon cycle Nitrogen cycle Phosphorus cycle 2 broad divisions Elements that have a gaseous.

Cycling of Matter Energy for life flows in one way – from the source (sun or chemical)

Ecological Cycles. Three types of cycles Water Cycle Water Cycle Carbon Cycle Carbon Cycle Nitrogen Cycle Nitrogen Cycle.

10/8/14 Objective: What are the biogeochemical cycles? Do Now:

CYCLING IN THE ECOSYSTEM pp DEFINITIONS Ecosystem: an environment where the living (biotic) and non-living (abiotic) things affect one another.

The Water Cycle: tem/watercycle/ tem/watercycle/

13.5 Cycling of Matter A biogeochemical cycle is the movement of a particular chemical through the biological and geological parts of an ecosystem. Matter.

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

Cycles of Matter. Recycling in the Biosphere Unlike the one way flow of energy, matter is recycled within and between ecosystems Unlike the one way flow.

Biochemical Cycles- closed circles or cycles of materials from nonliving to living organisms and back to nonliving. Examples : Water, carbon, nitrogen.

Biogeochemical Cycles/ Nutrient Cycles Ch. 3 Sec. 3

Nutrient Cycles Notes.

The Water Cycle.

Water Cycle The continuous movement of water between the ocean, the atmosphere and the land by evaporation, condensation, precipitation and runoff The.

Water Cycle 1.Evaporation 2.Condensation 3.Precipitation 1.Liquid → Gas Liquid water changes into water vapor, which is gas. 2.Gas → Liquid Water vapor.

Biogeochemical Cycles

Cycles of Matter All matter cycles...it is neither created nor destroyed... The Earth is essentially a closed system with respect to matter, we can say.

The Water Cycle 01/20/ a pgs  IN: Where does our water come from and where does it go?

Biogeochemical Cycles. Transpiration is the release of water from plants. precipitation condensation transpiration evaporation water storage in ocean.

Biogeochemical Cycles

Ecology Unit Learning Goal #2: Explain relationships between matter cycles and organisms.

Cody Guenzler, Period 3 Nitrogen Fixation Conversion of Nitrogen Assimilation Ammonification Nitrification Denitrification.

Ecology Ecology is the study of organisms within their environment. Ecology is the study of organisms within their environment. Matter cycles Matter cycles.

The Sun, Ocean, and the Water Cycle Unit 16. The Water Cycle The water cycle is the continuous movement of water through Earth’s environment. The main.

THE WATERCYCLE Ms. Merryman’s class WATER CYCLE There are four phases that happen within the water cycle:  Evaporation  Condensation  Precipitation.

Please pick up the notes.. Ecosystem Recycling You have 10 minutes from the tardy bell to complete your food web so please get started. Pick up a copy.

Cycles In Nature.

Biogeochemical (Nutrient) Cycles

Review “Cycles of Matter”

The Cycling of Matter in Ecosystems

KEY CONCEPT Matter cycles in and out of an ecosystem.

Biogeochemical Cycles

Cycles All organisms need water, minerals, and other life-sustaining materials to survive. Ex. Hydrologic – necessary for all life Ex. Carbon – backbone.

Biogeochemical Cycles/ Nutrient Cycles

Ecology Unit Learning Goal #2: Explain relationships between matter cycles and organisms.

Biogeochemical Cycles/ Nutrient Cycles

Cycles of Matter.

Chapter 3.3 Cycles of matter.

: Biogeochemical Cycles/ Nutrient Cycles

Cycles of matter.

4.3 Cycling Of Matter I. Water Cycle

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,

Cycling of Materials in Ecosystems

Water Cycle-the cycle of processes by which water circulates between the earth's oceans, atmosphere, and land, involving precipitation and returns to the.

ECOLOGY Chapter 3.4 Cycles.

Presentation transcript:

The Water Cycle  Rain, snow, and sleet are examples of this step of the water cycle. a. Condensation b. Precipitation c. Evaporation d. Seepage

The Water Cycle  The change of matter from a gaseous phase to a liquid phase is referred to as: a. Condensation b. Precipitation c. Evaporation d. Seepage

The Water Cycle  The change of water from liquid to gas is referred to as: a. Condensation b. Precipitation c. Evaporation d. Seepage

The Water Cycle  Water evaporates from leaves in a process known as: a. Evaporation b. Transpiration c. Seepage d. Condensation

The Water Cycle  Precipitation that moves along the ground and into rivers in streams is referred to as: a. Evaporation b. Runoff c. Seepage d. Transpiration

The Nitrogen Cycle  This step occurs when bacteria convert nitrogen gas into organic compounds that living organisms can take up? a. Denitrification b. Assimilation c. Nitrogen fixation d. Ammonification

The Nitrogen Cycle  Occurs when bacteria or fungi convert nitrogen gas into ammonium ions. a. Ammonification b. Nitrogen fixation c. Nitrification d. Deposition

The Nitrogen Cycle  Occurs when bacteria in soil convert nitrate ions into nitrogen gas. a. Denitrification b. Nitrogen fixation c. Ammonification d. Assimilation

The Nitrogen Cycle  When living organisms take up nitrogen…. a. Nitrogen fixation b. Denitrification c. Assimilation d. Ammonification

The Carbon/Oxygen Cycle  What would happen to our ecosystem if we were to get rid of all plant life?

The Carbon/Oxygen Cycle  What would happen to our ecosystem if we were to take away the majority of animal life?

The Carbon/Oxygen Cycle  What would happen, if more plant life were added to our ecosystem?