Presentation is loading. Please wait.

Presentation is loading. Please wait.

The Chemical and Physical Environment. Light photons- packets of electomagnetic energy wavelength: ultraviolet= short; infrared= long ~ 53% of the incident.

Published by Modified over 9 years ago

Similar presentations

Presentation on theme: "The Chemical and Physical Environment. Light photons- packets of electomagnetic energy wavelength: ultraviolet= short; infrared= long ~ 53% of the incident."— Presentation transcript:

1 The Chemical and Physical Environment

2 Light photons- packets of electomagnetic energy wavelength: ultraviolet= short; infrared= long ~ 53% of the incident light/radiation is absorbed (transformed into heat) within the 1 st 1M of the water column shorter wavelengths penetrate deeper factors influencing incident radiation: latitude, season, time of day, altitude, & weather conditions

3 turbidity decreases water’s ability to transmit light –secchi disk –attenuation- reduction of light energy with depth by scattering & absorption

4 photosynthesis/respiration CO 2 + H 2 O ----> C 6 H 12 O 6 + O 2 radiation 400-700nm drives the system

5 Temperature absorption- the high specific heat of water permits the dissipation of light energy as heat; this process is enhanced by dissolved organic matter. The thermal conductivity of water is low therefore heat radiation is primarily a surface phenomenon.

6 Metabolic Equilibrium Acclimation- organisms response to environmental change. Immediate response is followed by an adjustment period, then a new steady state.

7 Regulators vs. Conformers

8 Thermoregulation Homeotherms- regulate body temperature by reducing convective heat loss. restrictive circulation insulation countercurrent heat exchange

9 Countercurrent Heat Exchange

10 Poikilotherms body temperature conforms to that of the ambient environment. metabolic rate increases with temperature subtidal invertebrates and most fish

11 Temperature Change reduces physiological performance higher temperatures lead to failure of metabolic pathways low temperatures may lead to respiratory depression

12 Salinity inshore salinities may change rapidly changes affect organisms through processes of diffusion and osmotic balance

13 Osmotic Balance: Gills

14 see figure 4.12, p. 90

15 Oxygen Generally, consumption increases with increased activity. obligate anaerobes facultative anaerobes aerobic

Download ppt "The Chemical and Physical Environment. Light photons- packets of electomagnetic energy wavelength: ultraviolet= short; infrared= long ~ 53% of the incident."

Similar presentations

Temperature Chapter 8 Temperature Average kinetic energy of a system Arguably the most important aspect of the physical environment for life –Influences.

Temperature Chapter 8 Temperature Average kinetic energy of a system Arguably the most important aspect of the physical environment for life –Influences.
C3, C4, and CAM plants all have the same goal, to make carbohydrates. What happens to the triose-phosphates made in the Calvin cycle? 1.Used to synthesize.

C3, C4, and CAM plants all have the same goal, to make carbohydrates. What happens to the triose-phosphates made in the Calvin cycle? 1.Used to synthesize.
Chapter 40: Physiology, Homeostasis, and Temperature Regulation CHAPTER 40 Physiology, Homeostasis, and Temperature Regulation.

Chapter 40: Physiology, Homeostasis, and Temperature Regulation CHAPTER 40 Physiology, Homeostasis, and Temperature Regulation.
The maintenance of a particular temperature in a living body.

The maintenance of a particular temperature in a living body.
Solar Radiation and Insolation

Solar Radiation and Insolation
17.2 Heating the Atmosphere

17.2 Heating the Atmosphere
Radiant Exchange Heat Transfer at the Speed of Light (3 x 10 10 cm/sec) No medium required - can occur in vacuum Not dependent on air temperature Net transfer.

Radiant Exchange Heat Transfer at the Speed of Light (3 x cm/sec) No medium required - can occur in vacuum Not dependent on air temperature Net transfer.
© 2004 Thermal Modalities General Principles. © 2004 Physical Laws Cosine Law Inverse Square Law Arndth-Schultz Principle Law of Grotthus-Draper.

© 2004 Thermal Modalities General Principles. © 2004 Physical Laws Cosine Law Inverse Square Law Arndth-Schultz Principle Law of Grotthus-Draper.
Chapter 22 Heat Transfer.

Chapter 22 Heat Transfer.
Energy Ability to do work Many different forms Conservation of energy (Law) Transformed: example: – Radiant to Thermal – Kinetic to Thermal (friction)

Energy Ability to do work Many different forms Conservation of energy (Law) Transformed: example: – Radiant to Thermal – Kinetic to Thermal (friction)
Properties of Light in Water Refraction Attenuation with depth Light and Trophic Status Secchi Disk Application.

Properties of Light in Water Refraction Attenuation with depth Light and Trophic Status Secchi Disk Application.
Chapter 22 Section 2 Review Page 560 #’s 1-9

Chapter 22 Section 2 Review Page 560 #’s 1-9
Light and Temperature. Light photons- packets of electomagnetic energy wavelength: ultraviolet= short; infrared= long ~ 53% of the incident light/radiation.

Light and Temperature. Light photons- packets of electomagnetic energy wavelength: ultraviolet= short; infrared= long ~ 53% of the incident light/radiation.
Lecture goal: To identify and describe the properties of water that are most important to understanding broader patterns of habitat structure and ecology.

Lecture goal: To identify and describe the properties of water that are most important to understanding broader patterns of habitat structure and ecology.
Temperature, Osmotic Regulation, and the Urinary System Homeostasis – the ability of living organisms to maintain internal conditions within an optimal.

Temperature, Osmotic Regulation, and the Urinary System Homeostasis – the ability of living organisms to maintain internal conditions within an optimal.
16-1 D. Thermoregulation 1. Animals show two types of responses to changing environmental temperature.

16-1 D. Thermoregulation 1. Animals show two types of responses to changing environmental temperature.
Handout 3.1-2 (yellow) Solar Energy and the Atmosphere Standard 3 Objective 1 Indicators a, b, and c Standard 3 Objectives 1, 2, and 3 Workbook Pages 3,

Handout (yellow) Solar Energy and the Atmosphere Standard 3 Objective 1 Indicators a, b, and c Standard 3 Objectives 1, 2, and 3 Workbook Pages 3,
Thermoregulation Dr. Harold Helbock.

Thermoregulation Dr. Harold Helbock.
Thermal Energy Chapter 14. Key Ideas  What does temperature have to do with energy?  What makes things feel hot or cold?  What affects the rate that.

Thermal Energy Chapter 14. Key Ideas  What does temperature have to do with energy?  What makes things feel hot or cold?  What affects the rate that.
Chapter 20 Section 1 Review Page 500

Chapter 20 Section 1 Review Page 500

Similar presentations

Ads by Google