Curriculum Map 147 - BIOLOGY JUNCTION

Sponge Coloring Diagram and Questions

Found at the Biology Corner Name __________________ Period ______

Sponges – A Coloring Worksheet

Since sponges look like plants, it is understandable why early biologists thought they were plants. Today, we know that sponges are simple, multicellular animals in the Kingdom Animalia, Phylum Porifera. This phylum is thought to represent the transition from unicellular animals to multicellular animals. Most (but not all) sponges are asymmetrical and have no definite shape. Sponges, like all animals, are eukaryotic – meaning their cells have a nucleus. Porifera in Latin means “pore-bearer” and refers to the many pores or openings in these animals. Because of these pores, a sponge can soak up and release water. At one time, real sponges were used for cleaning and bathing. Today, most are artificially made.

All adult sponges are sessile, meaning they are attached to some surface. Since they cannot move, sponges cannot pursue their food. Instead, they are filter feeders, meaning they obtain their food by straining the water for small bits of food like bacteria, algae or protozoans.

Sponges exhibit less specialization (adaptation of a cell for a particular function) of cells than most invertebrates. The primitive structure of a sponge consists of only two layers of cells separated by a non-living jelly like substance. The outer layer of the sponge is the epidermis which is made of flat cells called epithelial cells. Color all the epithelial cells (B) of the epidermis peach or pink.

The inner layer consists of collar cells (A) whose function is to circulate water through the sponge. They do this by swishing their flagella which pulls water through the incurrent pore – water then travels out the osculum at the top of the sponge. As water passes through the sponge in this way, cells absorb food and oxygen and waste is excreted. Color the osculum (D) dark blue, the incurrent pores (C) light blue. Color the inside of the sponge where water circulates the same light blue as you colored the incurrent pores. Color all the collar cells (A) red.

In the jelly-like substance between the epidermis and the collar cells are cells called amebocytes – because they look like amebas. The job of the amebocytes is to travel around distributing food and oxygen to the cells of the epidermis. Because of the amebocytes, scientists believe that sponges evolved from protists. Color all of the amebocytes (E) green – look for them carefully.

The body of the sponge would collapse if it did not have some type of supporting structure. Some sponges have a soft network of protein fibers called spongin. Others have tiny, hard particles called spicules. Many of these spicules also stick out of the epidermis and provide the sponge with protection. Most sponges have a combination of spicules and spongin, the ratio often determines how soft or hard the sponge is. Search for and color all the pointy spicules (F) brown.

Reproduction for sponges can be accomplished both sexually and asexually. There are three ways for a sponge to reproduce asexually: budding, gemmules, and regeneration. Sponges can simply reproduce by budding, where a new sponge grows from older ones and eventually break off. Color the adult sponge (J) pink and all the buds (G) you can find red. Sponges can also reproduce by regeneration, where missing body parts are regrown. People who harvest sponges often take advantage of this by breaking off pieces of their catch and throwing them back in the water, to be harvested later. Finally, sponges can reproduce by creating gemmules – which is a group of amebocytes covered by a hard outer covering. Color the gemmule (H) yellow.

Sexual reproduction occurs when one sponge releases sperm into the water. This sperm travels to another sponge and fertilizes its eggs. The larva form will then swim to another location using its flagella where it will grow into an adult sponge. Most sponge species are hermaphrodites, they can produce both eggs and sperm.

Questions:

1. What did early biologists think sponges were? ______________________

2. Sponges belong to the Kingdom _________________ and the Phylum _______________

3. Sponges are [ unicellular or multicelluar ] and [ prokaryotic or eukaryotic ]

4. What type of symmetry do sponges have? ___________________________________

5. What does it mean to be sessile? ____________________________________

6. How do sponges get their food? ___________________________________

7. Water enters the sponge through the _____________________ and leaves through the
_____________________.

8. What is the job of the amebocyte? ________________________________________

9. What two substances give the sponge support? _________________________________

10. Tiny sponges growing from the main body of the sponge are called _________________

11. What is a gemmule? ___________________________________________________

12. What is a hermaphrodite? ______________________________________________

Label the letters on the diagrams

SciSpongesColoringWSP3.bmp (1403574 bytes)

Label the letters on the diagrams
SciSpongesColoringWSP4.bmp (2585142 bytes)

Found at www.biologycorner.com

Endocrine System

The Endocrine System

Click here to view an animation of the endocrine system

The endocrine system is a set of hormone secreting glands within the body of an animal. The function of the endocrine system is homeostasis, communication and response to stimuli. The endocrine system regulates the internal environment of the animal for growth, survival and reproduction as well as allowing it to respond to changes in its external environment.

The endocrine system’s glands secrete chemical messages we call hormones. These signals are passed through the blood to arrive at a target organ, which has cells possessing the appropriate receptor. Exocrine glands (not part of the endocrine system) secrete products that are passed outside the body. Sweat glands, salivary glands, and digestive glands are examples of exocrine glands.

The other communication method in the body is the nervous system. Although there are differences between them, they complement each other in many responses, e.g., response to danger.

The difference between nervous and endocrine control are as follows:

1. Nervous response is faster.

2. Nervous response is shorter in duration.

3. Nervous response stops quicker.

Nervous response is much more local.
Nerve ‘messages’ are conducted electrically; endocrine ‘messages’ are carried chemically.

Hormones

Most hormones are made of protein. They are called peptides. Peptides are short chains of amino acids; most hormones are peptides. They are secreted by the pituitary, parathyroid, heart, stomach, liver, and kidneys.

Some hormones are steroid based. Steroids are lipids derived from cholesterol. Testosterone is the male sex hormone. Estradiol, similar in structure to testosterone, is responsible for many female sex characteristics. Steroid hormones are secreted by the gonads, adrenal cortex, and placenta.

Hormones are usually slow to act but, once they act, they remain active for long periods of time and, also, their effects remain for a long time.

Endocrine Glands

There are 10 endocrine glands. As stated previously, other organs such as the stomach, intestines, kidneys, heart, brain, and placenta also make hormones.

Click here to take an online quiz on the location of the endocrine glands

The Pituitary Gland

The pituitary gland is often called the master gland. That is because the pituitary gland produces hormones that regulate other endocrine glands. Some hormones produced by the pituitary gland are:

1. Follicle Stimulating Hormone (FSH): Will be discussed in a later Chapter of the syllabus.

2. Luteinising Hormone (LH): Will be discussed in a later Chapter of the syllabus.

3. Growth Hormone (GH): Causes body cells to absorb amino acids and form protein for growth. The main function is to cause the elongation of bones.

4. Prolactin: stimulates milk formation by the breast after the birth of the baby.

5. Oxytocin: stimulates muscle contraction of uterus during birth, stimulates muscle contraction in the milk ducts during breast-feeding.

6. Antidiuretic Hormone (ADH): causes increased water reabsorption by kidneys.

7. Thyroid Stimulating Hormone (TSH): Combines with iodine at the thyroid gland to produce thyroxine.

Overproduction of GH causes gigantism and underproduction causes dwarfism.

The Hypothalamus

The hypothalamus links the nervous system with the endocrine system. It produces hormones that control the pituitary gland’s responses to messages from the brain and other hormones. Some these hormones, called releasing hormones, stimulate the pituitary gland to make other hormones. Others, called release inhibiting hormones, prevent the production of pituitary hormones.

An example is growth hormone releasing factor. This causes the production of growth hormone (GH) by the pituitary gland.

The Pineal Gland

This gland is in the brain. One hormone produced there is melatonin. Synthesis and release of melatonin is stimulated by darkness and inhibited by light. But even without visual cues, the level of melatonin in the blood rises and falls on a daily (circadian) cycle with peak levels occurring in the wee hours of the morning. Melatonin is readily available in drug stores and health food stores, and it has become quite popular. Ingesting even modest doses of melatonin raises the melatonin level in the blood to as much as 100 times greater than normal. These levels appear to promote going to sleep and thus help, insomnia to hasten recovery from jet lag, and to not to have dangerous side effects.

The Thyroid Gland

The thyroid gland produces the hormone called thyroxin. Thyroxin controls the rate of all the body’s internal reactions. In other words, thyroxin controls the rate of the body’s metabolism.

Physical conditions related to abnormal thyroid function are:

Hypothyroidism- Under Production of Thyroxine

1. Cretinism– Under production of thyroxin in young children. This results in low metabolic rates and results in retarded physical and mental development.

2. Myxoedema- Under production of thyroxin in adults. Characteristics are tiredness, lack of energy, slow mental and physical activity, and weight gain.

3. Goitre- Swelling of the thyroid caused by myxoedema.

Goitre

In cases of low production of thyroxine tablets are available to increase the thyroxine in the body. Since thyroxine needs iodine to be produced iodine is also administered to boost thyroxine levels.

Thyroxine Excess (Hyperthyroidism)

Thyroxine secretion is above normal. This causes a raised level of metabolism. Symptoms of over production of thyroxin are bulging eyes, weight loss heat production, nervousness, irritability, and anxiety. This condition is called Grave’s Disease. Corrective measures for Grave’s Disease are:

1. Drugs to suppress thyroid activity

2. Surgically remove part of the gland

3. Use radioactive iodine to destroy some of the gland.

The Parathyroids

parathyroids behind thyroid gland

There are 4 parathyroid glands. They are located within the thyroid gland. The hormone they produce is called parathormone. This hormone stimulates the release of calcium from the bones. That is why we must continue to include calcium in our diet even when our bones are fully grown.

The Thymus Gland

This gland is located behind the breastbone. It produces the hormone thymosin. This hormone causes white blood cells (lymphocytes) to become mature and active. These blood cells, as previously discussed in the Blood web page, are involved in the body’s immune system.

The Adrenal Glands

Click here to view an animation of the adrenal glands

Diagram showing the location of the adrenal glands

The adrenal glands are located on top of each kidney. They secrete the hormone called adrenaline (also called epinephrine). This hormone prepares the body for stress and is released when we are frightened or feel stress. It does the following:

1. Increases blood flow to the heart, muscles, and brain.

2. Reduces blood flow to the kidneys. This helps reduce blood loss if we are cut. It causes us to get pale.

3. Opens the bronchioles allowing us to get more air.

4. Increases glucose levels in the blood.

5. Increases heartbeat rate.

6. Increase muscular contraction and strength.

7. Increases mental alertness.

Pancreas

As discussed in the Human Nutrition web page the pancreas secretes pancreatic juice for the digestive system.

In addition, the pancreas produces the hormone called insulin. This hormone is produced in groups of cells called Islets of Langerhans. Insulin is needed because it reduces blood glucose levels in the blood. It causes cells, especially fat and muscle cells, to absorb glucose from the blood. The glucose is needed for cellular respiration or converted into glycogen. The glycogen is stored in the liver or the muscles for future use in cellular respiration.

Diabetes is a serious condition that results from 1 of 2 causes. In type 1 diabetes, the pancreas no longer makes insulin and therefore blood glucose cannot enter the cells to be used for energy. In type 2 diabetes, either the pancreas does not make enough insulin or the body is unable to use insulin correctly. Symptoms of diabetes are high glucose levels in the blood and urine, the production of large amounts of urine, severe thirst, loss of weight, and tiredness.

Injections of insulin, which are taken daily, the control of carbohydrate intake, exercise, and weight control treat diabetes.

Anabolic Steroids

Anabolic steroids are hormone supplements that habe been used. They build up muscle, speed up recovery of muscle from injury, and help strengthen bones. There are many serious side effects such as liver and adrenal gland failure, infertility, impotence, and the development of male characteristics in females that can result if they are misused. They are also, sometimes given to animals to promote increased lean muscle (meat) production. This practice is banned in the EU.

Control of Thyroxine Level

Control of thyroxine level as well as many other hormones is done by negative feedback. If the thyroxine level is normal the pituitary gland is inhibited from releasing thyroid stimulating hormone (TSH). As a result, no further thyroxine is produced. When thyroxine levels are low the pituitary gland produces TSH. This causes more thyroxine to be produced by the thyroid gland.

An Example of negative feedback in the role of the thyroid in maintaining body temperature at 37°C.:

The hypothalamus of the brain detects a drop in blood temperature.
The hypothalamus stimulates the pituitary to secrete TSH (thyroid-stimulating hormone).
This hormone stimulates the thyroid to increase its secretion of thyroxine.
The higher concentration of thyroxine increases metabolism and heat production increases.
The blood is warmed back to normal temperature.

OR:

Hypothalamus detecting raised blood temperature and reduces its stimulation of the pituitary.
High thyroxine levels inhibiting the release of TSH from the pituitary.
The increased level of thyroxine leads to the limitation or reduction of its secretion.
Body’s metabolism slows down as a result of less thyroxin. The body’s temperature goes down.

Review Chart of Major Hormonal Glands

Where the Hormone is Produced	Hormone(s) Secreted	Hormone Function
Adrenal Glands	Adrenalin	Causes Emergency Responses (fight/flight)
Pituitary Gland	Growth hormone	Affects growth and development; stimulates protein production
Pancreas	Insulin	Lowers blood sugar levels; stimulates metabolism of glucose, protein, and fat
Hypothalamus	Growth Hormone Releasing Factor	Causes growth hormone to be made
Pineal Gland	Melatonin	Controls body rhythms
Parathyroid Glands	Parathyroid hormone (Parathormone)	Affects bone formation and excretion of calcium and phosphorus
Thyroid	Thyroxine	Controls Metabolism
Thymus	Thymosin	Matures white blood cells

1st Semester Test Review 2004-05

First Semester Review 2004-05


	What are the smallest units that can carry on life functions called?
	Living things are composed of ______________.
	Give an example of a scientific observation.
	What is a hypothesis?
	What 3 things compose an atom?
	Matter is made of ________________.
	When atoms gain energy, what happens to electrons?
	Do cells contain a few or thousands of different kinds of enzymes?
	__________________ reactions are important in organisms because they allow the passage of energy from one molecule to another.
	What is a polar molecule?
	Water molecules break up other polar substances. Give an example of such a polar molecule.
	What happens to ionic compounds in water?
	Which is not a carbohydrate —– glycogen, steroids, cellulose, or sugars?
	Amino acids are the monomers for making ________________.
	Is ice an example of an organic molecule?
	The type & order of the amino acids determines the ___________ of a protein.
	Very active cells need more of which organelle?
	What organelle is the packaging & distribution center of the cell?
	What membrane surrounds the nucleus?
	What is the function of mitochondria. Sketch their shape.
	Where is chlorophyll found in plants?
	Diffusion takes place from ________________ concentration to ___________.
	If a cell has a high water content, will it lose or gain water?
	Ink dispersing in a beaker is an example of ________________.
	Very large molecules enter cells by a process called ________________.
	Endocytosis and exocytosis occur in ______________ directions across a cell membrane.
	What is photosynthesis?
	Where do the dark reactions of photosynthesis take place?
	When chlorophyll absorbs light energy ATP is made and what other energy carrying molecule?
	When chlorophyll absorbs light energy, what happens to its electrons?
	_______________ molecules are responsible for the photosystems.
	Electrons that have absorbed energy & moved to a higher energy level enter what chain?
	When cells break down food molecules, energy is temporarily stored in what molecule?
	When muscles do not get enough oxygen, what acid forms during exercise?
	If you are growing bacteria in a culture and lactic acids starts to form, the bacteria are not getting enough of what gas?
	The 2 stages of cellular respiration are _____________ & oxidative respiration.
	Citric acid forms in which cycle during cellular respiration?
	ATP molecules are formed inside what cellular organelle?
What is the study of life called?

2006 1st Semester Test Guide

First Semester Test 2006 Study Guide

1. What is the study of life called?

2. Instructions for traits passed from parent to offspring?

3. Keeping things stable or the same in cells?

4. Smallest units that can carry on life?

5. All living things require _________ for metabolism.

6. All living things are made of __________.

7. Salamanders with curved tails in polluted water are an example of which part of the scientific method?

8. The smallest part of carbon with all the same properties is called?

9. Where are electrons found in an atom & what is their charge?

10. When electrons gain energy they move to _____________________.

11. How many covalent bonds can carbon form?

12. Compounds may form from the transfer or __________ of electrons.

13. What happens to ionic compounds when placed in water?

14. Ionic bonds form from the ____________ of electrons.

15. Covalent bonds form from the ___________ of electrons.

16. What element do all organic compounds contain?

17. Give several examples of carbohydrates.

18. In what from do animals store glucose?

19. What are the monomers for proteins?

20. Is the following model a carbohydrate, lipid, or protein?

21. Sketch a fatty acid chain found in lipids.

22. What type of fatty acids contains double bonds?

23. Name the 2 nucleic acids.

24. When the volume of a cell increases, what happens to the surface area?

25. How does a prokaryotic cell differ from a eukaryotic cell?

26. What’s the job of the plasma membrane?

27. Parts of cells performing specific functions are called?

28. The ER sends proteins & lipids it makes to the __________ to be modified.

29. The Golgi ships & receives cell products in transport ___________.

30. In what organelle is ATP produced?

31. Ribosomes make ____________.

32. All eukaryotic cells have a ___________ containing the genetic material.

33. Diffusion occurs in what direction?

34. What is osmosis?

35. Ink dissolving in water is an example of _____________.

36. Riding of cell wastes in sacs is called _____________.

37. What is the effect of placing a plant into a hypertonic solution?

38. What is the ultimate energy for life on Earth?

39. Grana are suspended in the _________ of chloroplasts.

40. ____________ absorbs light energy for plants.

41. What happens to chlorophyll’s electrons when they absorb sunlight?

42. What is the source of oxygen in photosynthesis?

43. What gas is a byproduct of photosynthesis?

44. What type of skeleton do insects have?

45. The Calvin cycle occurs in what process?

46. The breaking down of food to release energy is called?

47. __________ builds up in heavily exercised muscles.

48. Name the 3 parts of cellular respiration.

49. How many chromosomes are in a human egg or sperm cell?

50. DNA compacts itself by wrapping around ____________.

51. How do insects help crops?

Writing Lab Notebook Reports

REVISED LAB REPORTS

LAB REPORT RUBRICS

General Instructions:

All labs must be written in pencil and be submitted to the teacher in a spiral notebook.
Always use third person (NO personal pronouns — me, I, you, we, etc.) when writing all parts of a lab report. (USE HE, SHE, THEY, THEIR, THEM, ETC.
The following things should be written clearly in marker on the front cover — “Subject” Lab Notebook, teacher name, student name, period.
Number each page of the spiral notebook in the lower right hand corner.
On Page 1, write the subject, year, student name, class period, and teacher name.
Page 2 should have “Table of Contents” written at the top and two columns, one for “Page” and the other for “Lab Title”.
Begin writing the first lab on page 3 of you notebook. DO NOT WRITE ON THE BACK OF YOUR PAPER!
SKIP A LINE BETWEEN EVERY SECTION!
TITLE and UNDERLINE each section & then begin writing on the NEXT LINE!

Your lab report should be written using the following format: (Be sure to left align & underline headings)

Title (center on top line; on the right of line 2, put date & lab #)
The title should indicate clearly & concisely the subject and scope of the report.

Introduction – 20 points (PARAGRAPH FORM)

The introduction should give background information about the experiment.
It should also state the purpose of the investigation.
This section will be two or more paragraphs in length.

Hypothesis – 20 points (SINGLE SENTENCE)

The hypothesis should be a single statement telling the exact thing you are trying to prove in your experiment.
NEVER write this statement using “first person”. Write the hypothesis in past tense (third person.)

Materials – 5 points (SINGLE SENTENCE)

This section should be written in sentence form and name all of the materials and equipment used.
Be sure to include specific amounts and concentrations of chemicals used.
Start the statement, “The materials used include _____, _____, etc.”

Methods (Procedure)- 5 points (STEPS; NUMBER)

This section includes the step-by-step procedures used.
The procedure should be so thorough that someone else could use your listed materials and procedures to conduct the same experiment and get the same results.

Results (Data & Questions) – 20 points

All data should be collected and organized in a logical order. Results should be illustrated as charts, tables, graphs, &/or diagrams. All graphs should include a title, the independent variable labeled on the horizontal axis, and the dependent variable labeled on the vertical axis.
All lab questions and answers should be included also with this section. ( NUMBER & UNDERLINE the questions & then write, but DON’T UNDERLINE the answers)
SKIP ONE LINE BETWEEN EACH QUESTION!

Error Analysis

Include any important factors that you think may have actually affected your results.

Discussion and Conclusion – 30 points

Discussion is the most important part of your report, because here, you show that you understand the experiment beyond the simple level of completing it.!!

Your conclusion MUST CONTAIN YOUR SUPPORTING DATA!
This is where you give a detailed account of what happened in the experiment.
Explain all observations and results in your experiment.
Analyze and interpret why these results were obtained.
Be sure to tell the significance or meaning of the results.
Restate the original hypothesis and explain whether the experiment succeeded. If the hypothesis was not correct, you should analyze why the results were not as predicted.
Explain experimental errors that appear in the results.

QUESTIONS MUST BE ANSWERED & CONCLUSION WRITTEN TO RECEIVE LAB CREDIT!

Additional help with Conclusions

CLICK HERE FOR NOTEBOOK COPY OF WRITING LAB REPORTS

Click here for Notebook paper Layout of Lab