[Report] Anatomy of Vertebrata

CHAPTER I

INTRODUCTION

A.      Background

Every living things on earth is consists of many components of which it is composed. One of the living things are animals. Animal body is composed of organs that make up the organ systems, and organ systems work together to form a complete individual. The system consists of the organs of the respiratory system, digestive, excretion and reproduction. With the existence of these organs, individuals can have a daily activities.

Animals are divided into two categories, there are invertebrates and vertebrates. Vertebrate animals are animals with a backbone. Vertebrates are divided into five categories, there are aves, reptile, amphibian, pisces, and mammals. One of the animals included in the class of vertebrate is a frog, which is the object of observation in the experiment this time. By looking at the anatomy of the frog, we expected to see an overview of anatomical structures in vertebrate animals. In general, we can observe the animals through the structure of the surface. Meanwhile, to observe the organs in it, we need to do surgery.

Frogs in the Amphibians class. Amphibians are came from two words amphi meaning two or dual, and bios which means life. Frogs live two lives, first in water and then live on land.

Frogs have two breathing organs, that is the lungs when they are on land, and use the skin when in the water. The frog skin is semi-permeable to air and water. The existence of these two breathing organs due to environmental factors.

In this experiment we use paddy frog (Rana cancanivora), were observed at this time is a system of breathing (respiration), expenditure system (excretion), and the reproductive system in this urgonetraka is to distinguish between the male and female frogs. These observations may provide knowledge to the students about the shape, color and location of the body's organs in vertebrates.

Therefore, by doing this experiment practitioner is expected to know what are the organs that make up the body of the frog and as a comparison to determine the structure of the vertebrate animals.

B.       Purpose

Student can recognize shapes, colors, and layout of the organ and its relationship with other organs in an organ system.

C.      Benefit

1.      Students can know and recognize the anatomy of frog/ vertebrate.

2.      Students can recognize the organ which formed up the system organ, and can explain the function of organs.

CHAPTER II

                         PREVIEW OF LITERATURE

Animal body consist of various organs.the organs that work together to perform the function of a higher form organ systems. In this lab will be observed anatomical arrangement paddy frog (Rana cancanivora). Frog anatomy can provide an overview of the major organs in vertebrate animals. Anatomy of an animal observations needed surgery to facilitate observing the shape, position and relationship with other organs. That would be observed in this lab is the digestive system, circulatory, respiratory, excrectory and reproductive (Hamka, 2012: 24).

There are 3000 species of amphibian which life in earth, that divided in three group, are Anura (frogs and toads). Urodela caudate (salamanders) and gymnophiona or apoda (caecilians). There are only about 60 species of caecilians and about 200 species of salamander, so most of the nation's amphibian consists of frogs and toads. Terminology "Amphibia" applied to any member of this class because most animals spend early stage life cycle in the water, out of shape in the form of tadpole larvae that breathe with outside gills then the larvae undergo metamorphosis into frogs child with respiratory form to adult lung and breathing through kulit, because the skin is always wet and glandular. Amphibians are vertebrate groups are present the first time live at the land. Basicly, they have pentadactyl (five tip toes), although the number of legs can be reduced. Such as fish and reptiles, the amphibians are ektoterm or a change in body temperature was temperature dependent. In most amphibians leave their eggs in the pool and water streams and none not be walking on the ground so they hatch, few species that live far away from water (Sukiya, 2003: 33).

Frogs are a diverse and largely carnivorous group of short-bodied, tailless amphibians composing the order Anura (Ancient Greek an-, without + oura, tail). The oldest fossil "proto-frog" appeared in the early Triassic of Madagascar, but molecular clock dating suggests their origins may extend further back to the Permian, 265 million years ago. Frogs are widely distributed, ranging from the tropics to subarctic regions, but the greatest concentration of species diversity is found in tropical rainforests. There are approximately 4,800 recorded species, making them among the most diverse vertebrate groups (Anonymous, 2012).

The body plan of an adult frog is generally characterized by a stout body, protruding eyes, cleft tongue, limbs folded underneath and the absence of a tail. Besides living in fresh water and on dry land, the adults of some species are adapted for living underground or in trees. The skin of the frog is glandular, with secretions ranging from distasteful to toxic. Warty species of frog tend to be called toads. Frog warts are elevations in the skin where glandular toxins tend to concentrate. The distinction between frogs and toads is based on informal naming conventions concentrating on the warts rather than taxonomy or evolutionary history; some toads are more closely related to frogs than other toads. Frogs' skins vary in colour from well-camouflaged dappled brown, grey and green to vivid patterns of bright red or yellow and black to advertise toxicity and warn off predators(Anonymous, 2012).

Frogs typically lay their eggs in water. The eggs hatch into aquatic larvae, called tadpoles, that have tails and internal gills. They have highly specialized rasping mouth parts suitable for herbivorous, omnivorous or planktivorous diets. The life cycle is completed when they metamorphose into adults. A few species deposit eggs on land or bypass the tadpole stage. Adult frogs generally have a carnivorous diet consisting of small invertebrates, but omnivorous species exist and a few feed on fruit. Frogs are extremely efficient at converting what they eat into body mass, which makes them an important food source for predators. Frogs are a keystone group in the food web dynamics of many of the world's ecosystems. The skin is semi-permeable, making frogs susceptible to dehydration, so they either live in moist places or have special adaptations to deal with dry habitats. Frogs produce a wide range of vocalizations, particularly in their breeding season, and exhibit many different kinds of complex behaviours to attract mates, to fend off predators and to generally survive (Anonymous, 2012).

Frogs have no tail, except as larvae, and most have long hind legs, elongated ankle bones, webbed toes, no claws, large eyes and a smooth or warty skin. They have a short vertebral column, with no more than ten free vertebrae and a fused tailbone (urostyle or coccyx). Like other amphibians, oxygen can pass through their highly permeable skins. This unique feature allows them to remain in places without access to the air, respiring through their skins. The ribs are poorly developed so the lungs are filled by buccal pumping and it has been shown that a frog deprived of its lungs can maintain its body functions without them. For the skin to serve as a respiratory organ, it must remain moist. This makes frogs susceptible to various substances they may encounter in the environment, some of which may be toxic and can dissolve in the water film and be passed into their bloodstream. This may be one of the causes of the worldwide decline in frog populations (Anonymous, 2012).

The structure of the feet and legs varies greatly among frog species, depending in part on whether they live primarily on the ground, in water, in trees or in burrows. Frogs must be able to move quickly through their environment to catch prey and escape predators, and numerous adaptations help them to do so. Most frogs are either proficient at jumping or are descended from ancestors who were, with much of the musculo-skeletal morphology modified for this purpose. The tibia, fibula and tarsals have been fused into a single, strong bone, as have the radius and ulna in the forelimbs (which must absorb the impact on landing). The metatarsals have become elongated to add to the leg length and allow the frog to push against the ground for a longer period on take-off. The illium has elongated and formed a mobile joint with the sacrum which, in specialist jumpers such as ranids and hylids, functions as an additional limb joint to further power the leaps. The tail vertebrae have fused into a urostyle which is retracted inside the pelvis. This enables the force to be transferred from the legs to the body during a leap (Anonymous, 2012).

A frog's skin is protective, has a respiratory function, can absorb water and helps control body temperature. It has many glands, particularly on the head and back, which often exude distasteful and toxic substances. The secretion is often sticky and helps keep the skin moist, protects against the entry of moulds and bacteria and make the animal slippery and more able to escape from predators. The skin is shed every few weeks. It usually splits down the middle of the back and across the belly, and the frog pulls its arms and legs free. The sloughed skin is then worked towards the head where it is quickly eaten (Anonymous, 2012).

Respiration and circulation. The skin of a frog is permeable to oxygen and carbon dioxide, as well as to water. There are a number of blood vessels near the surface of the skin and when a frog is underwater, oxygen diffuses directly into the blood. When not submerged, a frog breathes by a process known as buccal pumping. Its lungs are similar to those of humans but the chest muscles are not involved in respiration, and there are no ribs or diaphragm to help move air in and out. Instead, it puffs out its throat and draws air in through the nostrils, which in many species can then be closed by valves. When the floor of the mouth is compressed, air is forced into the lungs. The Borneo flat-headed frog (Barbourula kalimantanensis) was first discovered in a remote part of Indonesia in 2007. It is entirely aquatic and is the first species of frog known to science that has no lungs (Anonymous, 2012).

Frogs have three-chambered hearts, a feature they share with lizards. Oxygenated blood from the lungs and de-oxygenated blood from the respiring tissues enter the heart through separate atria. When these chambers contract, the two blood streams pass into a common ventricle before being pumped via a spiral valve to the appropriate vessel, the aorta for oxygenated blood and pulmonary artery for deoxygenated blood. The ventricle is partially divided into narrow cavities which minimizes the mixing of the two types of blood. These features enable frogs to have a higher metabolic rate and be more active than would otherwise be possible (Anonymous, 2012).

Some species of frog have adaptations that allow them to survive in oxygen deficient water. The Lake Titicaca frog (Telmatobius culeus) is one such species and has wrinkly skin that increases its surface area to enhance gas exchange. It normally makes no use of its rudimentary lungs but will sometimes raise and lower its body rhythmically while on the lake bed to increase the flow of water around it (Anonymous, 2012).

Digestion and excretion. Frogs have maxillary teeth along their upper jaw which are used to hold food before it is swallowed. These teeth are very weak, and cannot be used to chew or catch and harm agile prey. Instead, the frog uses its sticky, cleft tongue to catch flies and other small moving prey. The tongue normally lies coiled in the mouth, free at the back and attached to the mandible at the front. It can be shot out and retracted at great speed.^[39] Some frogs have no tongue and just stuff food into their mouths with their hands.^[39] The eyes assist in the swallowing of food as they can be retracted through holes in the skull and help push food down the throat.^[39] The food then moves through the oesophagus into the stomach where digestive enzymes are added and it is churned up. It then proceeds to the small intestine (duodenum and ileum) where most digestion occurs. Pancreatic juice from the pancreas, and bile, produced by the liver and stored in the gallbladder, are secreted into the small intestine, where the fluids digest the food and the nutrients are absorbed. The food residue passes into the large intestine where excess water is removed and the wastes are passed out through the cloaca (Anonymous, 2012). 

CHAPTER III

OBSERVATION METHOD

A.  Time and place

Day / Date              : Wednesday/ November 14^th , 2012            

Time                       : At 09.10 am until 10.50 am.

Place                       : Biology Laboratory 3^rd floor east side, Mathematics and

Science Faculty  State University of  Makassar.

B.  Tools and Materials

1.    Tools :

a.    Bottle killer

b.    Surgical tray

c.    Surgical Tools:

1)   Scissor

2)   Tweezers

3)   Needle

4)   Scalpel

5)   Picture books and pencils

2.    Materials :

a.    Frog fields (Rana cancarivora)

b.    Cotton

c.    Chloroform/ ether

C.  Work Procedure

1.      Foreign Frog

a.  Deadly Frog

1)   Took a piece of cotton ( for segment master fingers), wet it by chloroform, and put into it and the frog into the bottle killer. Covered the bottle killer and let the frog was unconsciousness.

2)   Removed the frog and placed it on the surgery tray, and covered the bottle and the cotton again.

3)   Observed the outside of the frog.

a)    The eyes, eyelids, and the mucous of the ear.

b)   External nostrils

c)    Tympanum, the lining of the ear.

d)   Cracks mounth

e)    Forelimb

1.   Upper arm ( Branchium)

2.   Fore arm ( Ante brancium)

3.   The soles (Manus)

4.   Finger-teak

f)    Rear legs

1.      Thigh (femur)

2.      Calves (crus)

3.      The soles are united (pes)

4.      Webbed fingers pool

g)   Cloaca (specify of the location)

h)   Touch the surface of the skin and the skin’s color.

4)        Drew the frog and mention all of the body’s part of it.

2.      Surgery

a.       Put the frog on the surgery tray and the ventral of frog was face the apreantice. Nailed all of the fingers of frog used needle on the wax.

b.      Used the tweezers, pinch the skin of the abdomen near the thigh lengthwise, lift slightly, cut across the skin under tweezers, thus forming a gap in the skin of the abdomen.

c.       Through the slit skin, insert the blunt  and then, cut the skin used scissor toward the head until crushed. Flipped to the last gap, scissors toward the base of the thighs.

d.      Leather scissors to the left and right side of the abdomen so that the skin could be revealed. Check the attachment of the skin to the muscle tissue. Only at the certain  place in the muscle attached to the skin, formed a kind of pouch (saccus).

e.       Wrote the center of the stomach muscle . viewed longitudinal white stripe along the abdominal muscle ( called the linea alba).

f.       Pinch twezeers abdominal muscle in beside linea alba, and cut crosswise, formed a gap. Insert the tip of  blunt scissors into the gap and began to cut the abdominal muscle toward your head to the bottom of the jaw. Continue to cut the groin.

g.      Unleash the abdominal muscle tissue to the left and right so that the abdominal cavity opened innards.

3.      Observations of Digestive system

a.       Opened the mouth of frog used the tweezers. Observed the shape of the teeth, touched with a finger on the upper jaw and teeth vomer the ceiling.

b.      Used the tweezers and pull his tougue out, observed the form and it is attachments.

c.       Ontinue to observed of the abdominal cavity countained viscera. Observed the shape and color:

1)      Hearts right, how many lobes;  found the gall bladder, and observed the the color.

2)      Hull on the left heart; lift a little will look the duodenum and pancreas.

3)      Traced continues until the rectal intestine. Notice of meetings.

4)      Rectum that turns into the cloaca.

4.      Observations of Circulatory system

a.       Toward the head of the liver, the heart apprease in the film.

b.      Plugged membrane wrapped the heart with a needle or scaple end up broke, observed the shapes and section.

1)      Chambers (ventricles)

2)      Porch (Atrium) left and right

3)      The main arteries (Truncus arterious) emanating from the ventricles and then branched into two aorta ( left and right).

4)      Drew the heart and mention the name of the parts.

5.      Observations of  Respiration System

a.  Noticed the left and right liver and left gastric, lung protruded parts.

b.  Observed how the lung when the frog took a breath.

c.  Removed the heart used scissors to look windpipe.

d. Drew the respiration system of frog.

6.      Observations of System Excretion and reproduction ( Urogenitalia)

a.       Removed the digestive organs from the stomach to the rectum and the mesentery ( connective tissue) that hold it.

b.      Looked the pair of kidneys rounded oval attached to the back of the abdominal cavity. Further observed:

1)      Kidney and adrenal gland (white line)..

2)      Body fat (corpus adiposum) yellow fringed.

3)      Renal tract (ureter) leaded from the kidney to the bladder.

c.       Male frog, the ureter was also called Dustus urospermaticus. Testis was located  next to the kidneys, less rounded associated with kidney through the Vasa efferensia.

d.      Female frog, there was a pair of ovaries. Raised a little ovaries, would appear oviduct as white winding channel, boiled down to being the end the from of a funnel cloaca (ostium) was near from the heart.

e.       Drew the Urogenitalia of frog and mention the name of the part.

CHAPTER IV

OBSERVATION RESULT AND DISCUSSION

A.    Discussion

Base on the observation, we obtained the result of morphology of frog (Ranacancanivora) are divided by digestive system, respiratory system, circulatory system, and urogenitalia system.

1.      Digestive system

The digestive system started from cavumoris and ended in rectum. Mucous gland much found in mouth, especially on tongue which used to catch prey. The tongue have sticky texture, branch and can stretched out (protrusible tongue). From mouth, digestive continue to esophagus, gastric, smooth intestinal, colon and cloaca. The digestive gland areheparand pancreatium that gave the secretion at intestinum.

2.      Respiratory system

In the frog respiratory system consists of the skin and lungs. In the skin has a wet surface and a layer of epithelium that has many blood vessels. Meanwhile, breathing with the lungs through the cavum oris, pharynx and larynx before going into the lungs. The lungs consist of two elastic pockets are layered to form alviola. Each pocket lung associated with short bronchial.

3.      Circulatory system

Circulatory system consists of two is the heart and blood vessels. Frog heart consists of three chambers, namely a ventrikum, right atrium and left atrium. Blood containing oxygen into the left atrium through the vena pulmonary into the left ventricle. While the blood containing carbon dioxide into the right atrium via the sinus venosus into the right ventricle and then pumped to the lungs.

4.      Urogenitalia system

The system is a combination system, because it consists of excretion and reproduction system incorporated in the cloaca. System excretion in the frog consists of kidney then excretion results brought to ureters into the urinary gallbladder as temporary storage before being discharged into the cloaca and excreted from the body.

In female frogs, reproductive organs consist of a pair of ovarium, ostium, ostium tuba, oviduct, and uterus. A pair of ovaries are producing ovum, mature egg from the ovaries will come out with the aid of cilia that surrounds the tube ostium. Furthermore ovum into the cloaca and released for external fertilization.  Furthermore ovum into the cloaca and released for external fertilization. In the male reproductive organs consist of a pair of testes located next arterior kidney and directly related to the mesonephric tubules into the cloaca. End of an enlarged ureter and seminal vesicular called, as a temporary shelter spermatozoa.

CHAPTER V

CONCLUSION AND SUGGESTION

A.      Conclusion

Based on the observation result, can concluded the anatomy of frof consist of many organs and each organ have different form, shape, and function. All organs is very important and have relationship with other organs to formed up system organs. The system organs which existed in frog body is respiratory system, digestive system, circulatory system,  and urogenitalia system.

B.       Suggestion

1.      Laboratory

Have to complete the tools for observation, se the apprentice can conduct the observation well.

2.      Assistant

Have to accompany the apprentice, to guide and give information about the observation object and how to use the observation tools.

3.      Apprentice

Must be carefully when conduct the surgery, to avoid the mistake. Such as; accidentally cut the blood vessel of observation object.

BIBLIOGRAPHY

Hamka. 2012. Guide Book of Basic Biology. Makassar: Biology Department Mathematic and Science Faculty State University of Makassar.

Sukiya. 2003. Biologi Vertebrata. Yogyakarta: Biology Department Mathematic and Science Faculty State University of Yogyakarta

Wikipedia contributors, "Frog," Wikipedia, The Free Encyclopedia, http://en.wikipedia.org/w/index.php?title=Frog&oldid=521240650 (accessed November 20, 2012).

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