Nitrate and Phosphate. Water Quality Nitrate Phosphate.

Slides:

Advertisements

Similar presentations

Certain types of bacteria indicate animal and human waste pollution.

Advertisements

Why Study Water Surface – Dirt Minerals Organic materials (any once living thing now decomposed Fertilizer Chemicals Anything spilled Ground – aquifers.

Water Contaminants. Nitrate Acceptable ranges: Source of contaminant: Indication of contaminant: Health Problems: Solution: 0-10 mg/L Human and animal.

Water Quality Indicators.

- Environment - Climate - Landscape - Land use - Local Population (animals and humans) Depends on…

Water Quality Tests.

Environmental Resources Unit C Animal Wildlife Management.

Water Monitoring Lab. Why Test Water Quality? Water testing allows scientists and citizens to have a full understanding of what is affecting their stream.

Assessing Aquatic Ecosystems & Measurement. Aquatic Ecosystem Assessment The health of an aquatic ecosystem can be determined by examining a variety of.

What caused these whales to die and wash ashore?

Chapter 3 Protists to Fungi

Subjects – Energy Flow and Chemical Cycles – Photosynthesis and Respiration – Plant Processes Standards Next GenerationBiologyEnvironmental Modeling how.

DISSOLVED OXYGEN IN WATER

Fish Requirements. Wilcox Central High School. Objectives: 1. Describe factors affecting water quality 2. Understand water oxygenation 3. Understand.

 DO level: 9.8 ppm  Hardness: 110ppm CaCo 3 (this is high due to limestone aquifers, not a bad thing)  Alkalinity: ppm (also high due to limestone.

 pH is a measure of the acidity or alkalinity of a solution  Pure water is said to be neutral or consisting of a pH of 7  When testing pH you are not.

Basics Water quality – measurements and standards for safe drinking water and water that is conducive with a healthy ecosystem, Affects the number and.

Nutrients Why monitor nutrients? Plant and algae growth

Water Chemistry Project In order to evaluate water changes, we need access to reliable information on current and past conditions. If changes are already.

Starter: If you had to create a hypothesis to test your water at home, would you say it is hard or soft and why?

Agricultural Pollutants and Fertilizers A farm is a high contributor to water pollution…why??? Rain typically washes nutrients and fertilizers off of.

©MathScience Innovation Center Our Backyard Waterways : Eutrophication Presented by: Rachel Martin Day 2.

Water Quality Index Announcements n HOURS due Monday! n Still an opening for Science Night.

Nutrients  Why monitor nutrients? –Plant and algae growth  Carbon, nitrogen, phosphorus, oxygen, silica, magnesium, potassium, calcium, iron, zinc, and.

Water Quality and Aquaculture Choose 2 Bodies of water n One that you think has poor water quality n One that you think has excellent water quality n.

Testing for Water Quality

5.4 Eutrophication.

Environmental Studies IDC3O3 Ms. Nguyen. * Amount of oxygen dissolved in water is a good indicator of water quality and the kinds of life it will support.

Water Chemistry Notes Mr. Distasio. Carbon Dioxide (CO 2 ) Colorless, odorless gas Source: Respiration Removal: Photosynthesis Highest Levels: at night,

Water Quality Natural & Controlled Environments. Monitoring natural environments Photo courtesy of Melissa Gutierrez.

Nutrient Cycles.

The Blue Planet The Blue Planet Indicators of Water Quality.

Effects of Unsafe Levels. pH Safe levels: Safe levels: Between 6.5 and 9 Sources: Sources: decaying matter causes acidic conditions Effects of Unsafe.

Water Quality Education Test Kit. Parameter- Phosphates What is this parameter? What is this parameter? Phosphate is an ion with one phosphorus and four.

 A. phytoplankton (algae) multiply, reach a maximum population, and begin to die off.  B. hypoxic conditions result with fish and other aquatic animals.

2 pt 3 pt 4 pt 5pt 1 pt 2 pt 3 pt 4 pt 5 pt 1 pt 2pt 3 pt 4pt 5 pt 1pt 2pt 3 pt 4 pt 5 pt 1 pt 2 pt 3 pt 4pt 5 pt 1pt pH NitratesTemperatureTurbidity Dissolved.

ECOSYSTEMS AND ENERGY FLOW CH 55 Energy flows through ecosystems while matter cycles through ecosystems.

Other Threats to Sustainability.  Matter and energy are recycled throughout Earth’s systems:  Lithosphere, hydrosphere, atmosphere, biosphere.  Water.

Water Monitorin g. When Water Testing… Testers look for many things! Turbidity: how many suspended particles are in water (FTU). More Turbid  less PS.

Missed Creek adventure????

 Salinity: Salinity is the concentration of dissolved salts in the water and is an important element of a  habitat. Aquatic animals are adapted to living.

Monitoring Water Quality for ecosystem health. Why Monitor? Under the Clean Water Act, EPA asks VA to enforce laws improving the quality of our streams,

Environmental Chemistry Dissolved oxygen. Dissolved oxygen in water BOD = B iochemical O xygen D emand can be used as an indicator of the amount of organic.

Indicators of Water Quality

 Energy moves through ecosystems  (Photosynthesis and Respiration)  Matter cycles Water Carbon Phosphorus Nitrogen And others.

Lake Ecosystems Part 3: Changes in Lake Ecosystems

Vocabulary:  Eutrophication: is a natural process; where lakes, as they age, build up nutrients which cause phytoplankton to grow.  Phytoplankton: Microscopic.

What, Why, & How. a limiting nutrient for aquatic plant growth sources include: atmospheric deposition organic matter decomposition excretion by organisms.

Unit Animal Science. Problem Area Aquaculture Lesson Microbial Cycling of Nitrogen.

EUTROPHICATION By: Annette Miles.

Water Quality Rice Creek Watershed.

Adapted From Ms. Hasan Mr. Aguilar Uteach Step 2 Lesson 3, 2012

Hydrosphere Review Rapid Recall

Plant Nutrients Diego and lorenzo.

Nitrogen and Phosphorus

Water Monitoring.

Abiotic Factors Affecting Aquatic Systems

Nutrients, Blooms, & Dead Zones: Abiotic Factors

Eutrophication Nitrogen and Phosphorus are often limiting factors in plant growth. Therefore they are used in fertilizers to improve plant growth. However,

Nutrients & Plant Health

Water Pollution.

Human population effects on environment

Human population effects on environment

Understanding the Environmental Requirements for Fish

With your hosts, the Fabulous BTW Educators

Indicators of Stream Health

Nutrient Cycles: The Nitrogen Cycle

Lake Ecosystems.

Presentation transcript:

Nitrate and Phosphate

Water Quality Nitrate Phosphate

Methemoglobinemia is a condition caused by 1.Nitrites reacting with hemoglobin to produce methemoglobin which destroys blood cells ability to carry oxygen. 2.Blue babies not breathing 3.Phosphate reacting with hemoglobin to produce methemoglobin which destroys blood cells ability to carry oxygen 4.Contamination of fecal coliform in drinking water

Nitrite and Blue Baby Syndrome - Methehemoglobinemia

Drinking water standards For drinking water: – Nitrate (NO3): 45mg/L – Nitrate Nitrogen: 10mg/L – According to the EPA and California State Water Board

Environmental Justice Issue Right in our back yard

Which type of fish are more sensitive to nitrate-nitrogen? 1.Warm water fish 2.Cold water fish 3.All fish 4.None they can all handle it well

Fish and Brown Blood Disease Fresh water fish more than salt water fish – Cooler temps can reduce phytoplankton productivity – phytoplankton use the nitrate Affects many fish that are consumed Blood turns brown Presence of DO important.

For example, fish which moderately affected with nitrite poisoning in a pond with a DO level of 6.5 ppm should survive but, if the same fish is placed in a pond with a DO level of 3.0 ppm likely will not.

Nitrogen Cycle

Phosphorus Cycle

Eutrophication eutrophia—healthy, adequate nutrition, development in Greek Eutrophication is when there is an excess of nutrients and algal blooms occur – which create hypoxic conditions Can occur naturally Can be caused by humans

Phytoplankton/Algae Blooms Phytoplankton are photosynthetic organisms Autotrophs: use energy from sunlight to make their own food through photosynthesis. Two groups in the phytoplankton community: Microalgae and blue-green bacteria (called cyanobacteria)

Conditions Temperature, salinity and nutrients Natural vs. Anthropogenic Time Keeping blooms in check: Filter-feeding like oysters, scallops and sponges consume phytoplankton, while microscopic crustaceans like copepods graze on phytoplankton in the water column

Nitrate Levels The depth/temperature of the water will matter in relation to the amount of nitrate present Unpolluted waters less than 4.0 mg/L Nitrate Levels in Aquatic Systems mg/LTypical Range 1.1 – 3 mg/LGood 3.1 – 5 mg/LFair Over 5mg/LPoor

Phosphate Level Naturally water contains about a 0.02mg/L amt of Phosphate. Phosphate is a limiting factor. Know that if an algal bloom is present your phosphate levels may not be high in the water – the PO4 is already in the algae. Phosphate level in aquatic ecosystems mg/LConsidered normal/uncontaminated mg/Llevel at which plant growth is stimulated – eutrophication accelerates 0.1 mg/Lmaximum acceptable to avoid accelerated eutrophication > 0.1 mg/Laccelerated growth and consequent problems

Test kit Units = mg/L If phosphates is present a blue color will develop. Nitrates = red