YSI Data Presentation Wouldn’t it be great if it was this easy? This might look cool at your local Kincaid gallery, but really who let the 5yr old loose.

Slides:

Advertisements

Similar presentations

Dissolved Gases. Important Gases 6 important gases are dissolved in lakes, streams, seas 6 important gases are dissolved in lakes, streams, seas Nitrogen.

Advertisements

Lake stratification (and chemistry) Water column is all the same temperature Complete circulation of the water column.

Aquatic Productivity and Dissolved O2 lab

Mike- P levels Marvel- effects on organisms Rich- lake wide/cumulative.

Density Stratification of Lakes

Redox of Natural Waters Redox largely controlled by quantity and quality (e.g. reactivity) of organic matter Redox largely controlled by quantity and quality.

Light in Lakes.

Aquatic Ecosystems Water has the ability to hold a large amount of energy. Due to this characteristic large bodies of water will take longer to heat up.

Streams draining mine tailings are extremely acidic—the effect of Thiobacillus ferrooxidans oxidizing sulfur and iron in pyrite minerals. What kind of.

Light and Temperature. Light photons- packets of electomagnetic energy wavelength: ultraviolet= short; infrared= long ~ 53% of the incident light/radiation.

Dr. Martin T. Auer MTU Department of Civil & Environmental Engineering ENVE5504 Surface Water Quality Modeling Lab 4. One-Dimensional Models Vertical Mass.

Early Limnology: Temperature Profiles. Lake Zones Zones are dynamic! Input of heat  Mixing forces.

Dr. Martin T. Auer MTU Department of Civil & Environmental Engineering CE5504 Surface Water Quality Modeling Lab 5. One-Dimensional Models Thermal Stratification,

Light, Secchi, Weather and Miscellaneous Comments Liz Ely, Ira Smith, and Margaret Soulman.

Lec 5: Gases (DO & CO2) and pH

Physical and Chemical Analysis of Mr. D. Ingles Pond Presented By: Nick Mcconnell, Daryl Lescanec, Kristin Beck, Jordan Messner, and Matt Jeffress.

Josh and his Silver Foxy’s. Temperature Is Woods Lake Stratified? Thermally? Chemically? Woods Lake is thermally stratified because the with an increase.

INTRODUCTION Water composes one of the five “spheres” in which environmental chemistry is discussed. This chapter introduces the environmental chemistry.

AOS 101 Weather and Climate Lisha M. Roubert University of Wisconsin-Madison Department of Atmospheric & Oceanic Sciences.

David Burger, David Hamilton 1, Conrad Pilditch 1, Julie Hall 2 & Max Gibbs 2 Nutrient dynamics in Lake Rotorua 1 Department of Biological Sciences, University.

“What Is Lake Turnover?” Post-Reading Questions. 1. What times of year does turnover typically occur? Turnover usually occurs in the spring and fall.

Electricity Part 4: Power Plants, Distribution and Cooling,

Physical & Chemical Parameters of the Turnbow Pond Cody Clark Dylan Weir Jeffery Johnson.

Chemical and Physical Structures of the Ocean. Oceans and Temperature Ocean surface temperature strongly correlates with latitude because insolation,

Spring Lentic is describe as standing water habitats Inland depressions that hold water Range from 1 meter to 2000 meters Formation Glacial Retreat.

Acid Rain Sultan Al Essa 7D.

The wonderful world of zooplankton The wonderful world of zooplankton (and what it means to us)

Water Chemistry By Lucas Kirby, Cynthia Watson, Meghan Dye and Stephanie Johnson.

1 Readings: Snucins & Gunn 2000 Lec 2: Light and Heat I. Light and Transparency II. Stratification:Vertical Temp. Gradients III. Circulation.

Chemical Reactions 8 th 5.2 Rates of Chemical Reactions.

Lake Water Chemistry ► Phosphorus ► Nitrate ► Silica.

 What does a car need to run?  What does an ipod need to work?  What do we need to survive?  If all these things need a power/energy source, what is.

Dissolved Oxygen –The distribution and dynamics of dissolved oxygen are important in aquatic systems because it controls the distribution, behavior, physiology,

Chlorophyll and Phytoplankton in Lakes Emily DeBolt Josh Conway.

Project EDDIE: Lake Mixing Carey, C.C., J.L. Klug, and R.L. Fuller. 1 August Project EDDIE: Lake Mixing Module. Project EDDIE Module 3, Version 1.

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.

1 State of San Lorenzo River Symposium Nicole Beck, PhD 2NDNATURE April San Lorenzo Lagoon A Decade of Dry Season WQ Monitoring.

Water as an Environment Light Water Movements Part 3.

 The study of fresh bodies of water  Lentic: standing water (lakes and ponds)  Lotic: flowing water (streams and rivers)

Pond Ecosystems.

13.2 Energy Systems.

Comparison of light in six New York lakes Amanda Davis Lauren Jetty Jennifer Mokos Justen Walker.

Zooplankton: who are they?

Lab 5 Physical and Chemical Properties of Sea Water

Climate Notes. What is Climate?  Climate: Average weather conditions for an area over a long period of time.  Described by average temperatures and.

Phytoplankton Diversity in New York Lakes Ryan Butryn and Rick Naro

Redox of Natural Waters Redox largely controlled by quantity and quality (e.g. reactivity) of organic matter Redox largely controlled by quantity and quality.

Greenhouse Effect Sun Earth’s Temperature Solar Energy Solar Energy Solar Energy Solar Energy.

Electricity Part 4: Power Plants, Distribution and Cooling,

The Life Cycle of a Lake. Water Chemistry Basics Water freezes at 0° Celsius (32° Fahrenheit) Most substances get more dense as they get colder and less.

Freshwater Ecosystems Notes

Rivers and Streams - Physical Conditions

Project EDDIE: Lake Mixing

Part 2: Abiotic Factors affecting Aquatic Ecosystems Pg

13.2 Energy Systems.

Density Stratification of Lakes

Data collected 9/10/2006 Presented by Maureen Gregory

Lake Spokane 2012 Nutrient Monitoring Data

Phytoplankton and Chlorophyll Comparisons

Chemistry of Lakes What physical processes determine the structure of lakes? How does availability of gases, particularly oxygen, vary in lakes with depth.

Chemistry of Lakes What physical processes determine the structure of lakes? How does availability of gases, particularly oxygen, vary in lakes with depth.

Mike Holdsworth Jackie Anderson

Factors Affecting Aquatic Ecosystems

Stratification.

By: Maureen Gregory Emily Waldt

Lake Comparison Physical and Chemical Properties

Variables Obj 1:a-b.

Presentation transcript:

YSI Data Presentation

Wouldn’t it be great if it was this easy? This might look cool at your local Kincaid gallery, but really who let the 5yr old loose with the crayon? Temperature decreases with depth

finalhome.htm A coherent breakdown of YSI data

Arbutus Pond 14-Sept-02 huntData.html

Wolf Lake 14-Sept-02 DO should be uniform because lake is isothermal Windy, variable mixing

Catlin Lake 14-Sept-02 No Oxygen data due to tomfoolery

Green Lake eggwarmer.appliedtheory.com/ home/Syracuse/parks4.jpg 30-Sept-02 & 2-Oct-02 Less O2 in Epilimnion b/c warmer water is less dense Temp. Increase at Chemocline Absorption of solar radiation by funky pink sulfur rich bacteria Anoxia!!! Conductivity increase due to chemical conc. In monimolimnion

Oneida Lake 9-Oct-02 Big shallow lake with long fetch breaks down in strong winds during summer

Onondaga Lake images/pic3.jpg 28-Sept-02 ANOXIA!! In Hypolimnion pH increase due to anerobic respiration Redox reactions use up available H+ i.e. sulfate & nitrogen reduction Clinogade oxygen profile

watersheds/drinking.htm Skaneateles Lake lakes/scan3a.jpg 28-Sept-02 Orthograde DO profile Beginning of the END of summer stratification