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By the end of the section, you will be able to:
- Identify the organs of the alimentary canal from proximal to distal, and briefly state their functions
- Identify the accessory digestive organs and briefly state their primary function
- Describe the four fundamental tissue layers of the alimentary canal
- Contrast the contributions of the enteric and autonomic nervous systems to digestive system functioning
- Describe the structure and function of the peritoneum and mesenteries
The function of the digestive system is to break down the foods you eat by secreting enzymes to mix with food, release their nutrients, and absorb those nutrients into the body. Although the small intestine is the workhorse of the system, where the majority of digestion occurs, and where most of the released nutrients are absorbed into the blood or lymph, each of the digestive system organs makes a vital contribution to this process (Figure \(\PageIndex{1}\)). The picture below shows all the organs of the digestive tract, a long tube that starts with the mouth, to the esophagus, stomach, small intestine, large intestine, and ending at the anus. The picture also shows some accessory digestive organs, such as the salivary glands, liver, gall bladder, and pancreas. The different organs and structures are briefly discussed below. The rest of this chapter will cover the details of each organ.

As is the case with all body systems, the digestive system does not work in isolation; it functions cooperatively with the other systems of the body. Consider for example, the interrelationship between the digestive and cardiovascular systems. Arteries supply the digestive organs with oxygen and processed nutrients, and veins drain the digestive tract. These intestinal veins, constituting the hepatic portal system, are unique; they do not return blood directly to the heart. Rather, this blood is diverted to the liver where its nutrients are off-loaded for processing before blood completes its circuit back to the heart. At the same time, the digestive system provides nutrients to the heart muscle and vascular tissue to support their functioning. The interrelationship of the digestive and endocrine systems is also critical. Hormones secreted by several endocrine glands, as well as endocrine cells of the pancreas, the stomach, and the small intestine, contribute to the control of digestion and nutrient metabolism. In turn, the digestive system provides the nutrients to fuel endocrine function. Table \(\PageIndex{1}\) gives a quick glimpse at how these other systems contribute to the functioning of the digestive system.
Body system | Benefits received by the digestive system |
---|---|
Cardiovascular | Blood supplies digestive organs with oxygen and processed nutrients |
Endocrine | Endocrine hormones help regulate secretion in digestive glands and accessory organs |
Integumentary | Skin helps protect digestive organs and synthesizes vitamin D for calcium absorption |
Lymphatic | Mucosa-associated lymphoid tissue (MALT) and other lymphatic tissue defend against entry of pathogens; lacteals absorb lipids; and lymphatic vessels transport lipids to bloodstream |
Muscular | Skeletal muscles support and protect abdominal organs |
Nervous | Sensory and motor neurons help regulate secretions and muscle contractions in the digestive tract |
Respiratory | Respiratory organs provide oxygen and remove carbon dioxide |
Skeletal | Bones help protect and support digestive organs |
Urinary | Kidneys convert vitamin D into its active form, allowing calcium absorption in the small intestine |
Digestive System Organs
The easiest way to understand the digestive system is to divide its organs into two main categories. The first group is the organs that make up the alimentary canal, also known as the digestive tract or gastrointestinal (GI) tract. Accessory digestive organs comprise the second group and are critical for orchestrating the breakdown of food and the assimilation of its nutrients into the body. Accessory digestive organs, despite their name, are critical to the function of the digestive system.
Alimentary Canal Organs
Also called the digestive tract, gastrointestinal (GI) tract or gut, the alimentary canal (aliment- = “to nourish”) is a one-way tube about 7.62 meters (25 feet) in length during life and closer to 10.67 meters (35 feet) in length when measured after death, once smooth muscle tone is lost. The main function of the organs of the alimentary canal is to nourish the body. This tube begins at the mouth and terminates at the anus. Between those two points, the canal is modified as the pharynx, esophagus, stomach, and small and large intestines to fit the functional needs of the body. In this system, relative locations closer to the mouth are considered “proximal” and further from the mouth (closer to the anus) are considered “distal”. Both the mouth and anus are open to the external environment; thus, food and wastes within the alimentary canal are technically considered to be outside the body. Only through the process of absorption, moving from digestive organs into the blood, do the nutrients in food enter into and nourish the body’s “inner space.”
Accessory Structures
Each accessory digestive organ aids in the breakdown of food (Figure \(\PageIndex{1}\). Within the mouth, the teeth and tongue begin mechanical digestion, whereas the salivary glands begin chemical digestion. Once food products enter the small intestine, the gallbladder, liver, and pancreas release secretions—such as bile and enzymes—essential for digestion to continue. Together, these are called accessory organs because they sprout from the lining cells of the developing gut (mucosa) and augment its function; indeed, you could not live without the vital contributions from the liver and pancreas, and many significant diseases result from their malfunction. Even after development is complete, they maintain a connection to the gut by way of ducts.
Histology of the Alimentary Canal
Throughout its length, the alimentary tract is composed of the same four tissue layers; the details of their structural arrangements vary to fit the specific functions of each organ or region. Starting from the lumen and moving outwards, these layers are the mucosa, submucosa, muscularis, and serosa, which is continuous with the mesentery (see Figure \(\PageIndex{2}\). The picture below also shows the details in each layer, which will be discussed in the paragraphs below. The image also shows the blood vessels and nerve sandwiched between the two layers called mesentery. More details about mesentery are found in upcoming paragraphs in this section.

The mucosa is referred to as a mucous membrane, because mucus production is a characteristic feature of gut epithelium. The membrane consists of epithelium, which is in direct contact with ingested food, and the lamina propria, a layer of dense irregular connective tissue analogous to the dermis. In addition, the mucosa has a thin, smooth muscle layer, called the muscularis mucosa (not to be confused with the muscularis layer, described below).
Epithelium—In the mouth, pharynx, esophagus, and anal canal, the epithelium is primarily a non-keratinized, stratified squamous epithelium. In the stomach and intestines, it is a simple columnar epithelium. Notice that the epithelium is in direct contact with the lumen, the space inside the alimentary canal. Interspersed among its epithelial cells are goblet cells, which secrete mucus and fluid into the lumen, and enteroendocrine cells, which secrete hormones into the interstitial spaces between cells. Epithelial cells have a very brief lifespan, averaging from only a couple of days (in the mouth) to about a week (in the gut). This process of rapid renewal helps preserve the health of the alimentary canal, despite the wear and tear resulting from continued contact with foodstuffs.
Lamina propria—In addition to loose connective tissue, the lamina propria contains numerous blood and lymphatic vessels that transport nutrients absorbed through the alimentary canal to other parts of the body. The lamina propria also serves an immune function by housing clusters of lymphocytes, making up the mucosa-associated lymphoid tissue (MALT). These lymphocyte clusters are particularly substantial in the distal ileum where they are known as Peyer’s patches. When you consider that the alimentary canal is exposed to foodborne bacteria and other foreign matter, it is not hard to appreciate why the immune system has evolved a means of defending against the pathogens encountered within it.
Muscularis mucosa—This thin layer of smooth muscle is in a constant state of tension, pulling the mucosa of the stomach and small intestine into undulating folds. These folds dramatically increase the surface area available for digestion and absorption.
As its name implies, the submucosa lies immediately beneath the mucosa. A broad layer of dense irregular connective tissue, it lies between the mucosa and the muscularis. It includes blood and lymphatic vessels (which transport absorbed nutrients), and a scattering of submucosal glands that release digestive secretions. Additionally, it serves as a conduit for a dense branching network of nerves, the submucosal plexus, which functions as described below.
The third layer of the alimentary canal is the muscularis (also called the muscularis externa). The muscularis in the small intestine is made up of a double layer of smooth muscle: an inner circular layer, forming a ring around the tube, and an outer longitudinal layer that runs the length of the tube. The contractions of these layers promote mechanical digestion, expose more of the food to digestive chemicals, and move the food along the canal. In the most proximal and distal regions of the alimentary canal, including the mouth, pharynx, anterior part of the esophagus, and external anal sphincter, the muscularis is made up of skeletal muscle, which gives you voluntary control over swallowing and defecation. The basic two-layer structure found in the small intestine is modified in the organs proximal and distal to it. The stomach is equipped for its churning function by the addition of a third layer, the oblique muscle. While the colon has two layers like the small intestine, its longitudinal layer is segregated into three narrow parallel bands, the teniae coli, which make it look like a series of pouches rather than a simple tube. The myenteric plexus (plexus of Auerbach) is a network of nerves to stimulate the muscles, lies in the muscularis layer.
The serosa is the portion of the alimentary canal superficial to the muscularis. Present only in the region of the alimentary canal within the abdominal cavity, it consists of a layer of visceral peritoneum overlying a layer of loose connective tissue. Instead of serosa, the mouth, pharynx, and esophagus have a dense sheath of collagen fibers called the adventitia. These tissues serve to hold the alimentary canal in place near the ventral surface of the vertebral column.
Nerve Supply
As soon as food enters the mouth, it is detected by receptors that send impulses along the sensory neurons of cranial nerves. Without these nerves, not only would your food be without taste, but you would also be unable to feel either the food or the structures of your mouth. Without these nerves, you would could bite yourself as you chew, an action enabled by the motor branches of cranial nerves.
Intrinsic (within) innervation of much of the alimentary canal is provided by the enteric nervous system, which runs from the esophagus to the anus, and contains approximately 100 million motor, sensory, and interneurons (unique to this system compared to all other parts of the peripheral nervous system). These enteric neurons are grouped into two plexuses. The myenteric plexus (plexus of Auerbach) lies in the muscularis layer of the alimentary canal and is responsible for motility, especially the rhythm and force of the contractions of the muscularis. The submucosal plexus (plexus of Meissner) lies in the submucosal layer and is responsible for regulating digestive secretions and reacting to the presence of food (see Figure \(\PageIndex{2}\).
Extrinsic innervations of the alimentary canal are provided by the autonomic nervous system communicating with the enteric nervous system. In general, sympathetic activation (the fight-or-flight response) restricts the activity of enteric neurons, thereby decreasing GI secretion and motility. In contrast, parasympathetic activation (the rest-and-digest response) increases GI secretion and motility by stimulating neurons of the enteric nervous system.
Blood Supply
The blood vessels serving the digestive system have two functions. They transport the protein and carbohydrate nutrients absorbed by mucosal cells after food is digested in the lumen. Lipids are absorbed via lacteals, tiny structures of the lymphatic system. The blood vessels’ second function is to supply the organs of the alimentary canal with the nutrients and oxygen needed to drive their cellular processes.
Specifically, the more anterior parts of the alimentary canal are supplied with blood by arteries branching off the aortic arch and thoracic aorta. Below this point, the alimentary canal is supplied with blood by arteries branching from the abdominal aorta. The celiac trunk services the liver, stomach, and duodenum, whereas the superior and inferior mesenteric arteries supply blood to the remaining small and large intestines.
The veins that collect nutrient-rich blood from the small intestine (where most absorption occurs) and the spleen, empty into the hepatic portal system. This venous network takes the blood into the liver where the nutrients are either processed or stored for later use. Only then does the blood drained from the alimentary canal viscera and the spleen (not a digestive organ) circulate back to the heart. To appreciate just how demanding the digestive process is on the cardiovascular system, consider that while you are “resting and digesting,” about one-fourth of the blood pumped with each heartbeat enters arteries serving the intestines.
Peritoneum
The digestive organs within the abdominal cavity are held in place by the peritoneum, a broad serous membranous sac made up of squamous epithelial tissue, also known as mesothelium, surrounded by areolar connective tissue. It is composed of two different regions: the parietal peritoneum, which lines the abdominal wall, and the visceral peritoneum, which envelopes the abdominal organs (Figure \(\PageIndex{3}\)). This image shows a cross-section of the upper abdomen with organs labeled as vertebra, kidney, pancreas, liver, gallbladder, stomach, and spleen. The membrane adhering to the liver, small intestine, large intestine, stomach, and spleen is highlighted and labeled visceral peritoneum. The parietal peritoneum, also highlighted, is continuous with the visceral peritoneum and runs immediately external to the visceral peritoneum. The peritoneal cavity is the space bounded by the visceral and parietal peritoneal surfaces, filled with a small amount of water. A few milliliters of watery fluid act as a lubricant to minimize friction between the serosal surfaces of the peritoneum.
The serosa, mentioned above, is also called the visceral peritoneum. The visceral peritoneum includes multiple large folds, also called mesenteries, that connect various abdominal organs, holding them to the dorsal surface of the body (trunk) wall and in some cases, each other. The folds are created by visceral peritoneum leaving the wall of an organ to form a double layer of mesothelium sandwiching areolar connective tissue, adipose tissue, blood vessels, lymphatic vessels, and nerves that innervate the organs with which they are in contact. General functions of the peritoneal folds are to provide routes for vessels and nerves to reach intraperitoneal (within the peritoneum) organs, hold these organs to a relative location and in some cases insulate and protect other nearby organs. The five major peritoneal folds are described in Table 21.2.2 and are shown in Figure 21.2.4, Figure 21.2.5, and Figure 21.2.6. Note that during fetal development, certain digestive structures, including the first portion of the small intestine (called the duodenum), the pancreas, and portions of the large intestine (the ascending and descending colon, and the rectum) remain completely or partially posterior to the peritoneum. Thus, the location of these organs is described as retroperitoneal.

DISORDERS OF THE...
Digestive System: Peritonitis
Inflammation of the peritoneum is called peritonitis. Chemical peritonitis can develop any time the wall of the alimentary canal is breached, allowing the contents of the lumen entry into the peritoneal cavity. For example, when an ulcer perforates the stomach wall, gastric juices spill into the peritoneal cavity. Hemorrhagic peritonitis occurs after a ruptured tubal pregnancy or traumatic injury to the liver or spleen fills the peritoneal cavity with blood. Even more severe peritonitis is associated with bacterial infections seen with appendicitis, colonic diverticulitis, and pelvic inflammatory disease (infection of uterine tubes, usually by sexually transmitted bacteria). Peritonitis is life threatening and often results in emergency surgery to correct the underlying problem and intensive antibiotic therapy. When your great grandparents and even your parents were young, the mortality from peritonitis was high. Aggressive surgery, improvements in anesthesia safety, the advance of critical care expertise, and antibiotics have greatly improved the mortality rate from this condition. Even so, the mortality rate for peritonitis still ranges from 30 to 40 percent.
Fold | Description |
---|---|
Greater omentum | Apron-like structure that lies superficial to the small intestine and transverse colon; a site of fat deposition in people who are overweight |
Falciform ligament | Anchors the liver to the anterior abdominal wall and inferior border of the diaphragm |
Lesser omentum | Suspends the stomach from the inferior border of the liver; provides a pathway for structures connecting to the liver |
Mesentery proper | Vertical band of tissue anterior to the lumbar vertebrae and anchoring all of the small intestine except the initial portion (the duodenum) |
Mesocolon | Attaches two portions of the large intestine (the transverse and sigmoid colon) to the posterior abdominal wall |
Concept Review
The digestive system includes the organs of the alimentary canal and accessory structures. The alimentary canal forms a continuous tube that is open to the outside environment at both ends. The organs of the alimentary canal are the mouth, pharynx, esophagus, stomach, small intestine, and large intestine. The accessory digestive structures include the teeth, tongue, salivary glands, liver, pancreas, and gallbladder. The wall of the alimentary canal is composed of four basic tissue layers: mucosa, submucosa, muscularis, and serosa. The enteric nervous system provides intrinsic innervation, and the autonomic nervous system provides extrinsic innervation. Organs of the digestive system receive oxygenated blood from the abdominal aorta and send deoxygenated, nutrient rich blood, to the liver through the hepatic portal vein. The peritoneum, a serous membrane, functions to anchor abdominal organs and provides routes for vessels and nerves along with insulation in specialized regions called peritoneal folds (mesenteries).
Review Questions
Q. Which of these organs is not considered an accessory digestive structure?
A. mouth
B. salivary glands
C. pancreas
D. liver
- Answer
-
Answer: A
Q. Which of the following organs is supported by a layer of adventitia rather than serosa?
A. esophagus
B. stomach
C. small intestine
D. large intestine
- Answer
-
Answer: A
Q. Which of the following membranes covers the stomach?
A. falciform ligament
B. mesocolon
C. parietal peritoneum
D. visceral peritoneum
- Answer
-
Answer: D
Critical Thinking Questions
Q. Explain how the enteric nervous system supports the digestive system. What might occur that could result in the autonomic nervous system having a negative impact on digestion?
- Answer
-
A. The enteric nervous system helps regulate alimentary canal motility and the secretion of digestive juices, thus facilitating digestion. If a person becomes overly anxious, sympathetic innervation of the alimentary canal is stimulated, which can result in a slowing of digestive activity.
Q. What layer of the alimentary canal tissue is capable of helping to protect the body against disease, and through what mechanism?
- Answer
-
A. The lamina propria of the mucosa contains lymphoid tissue that makes up the MALT and responds to pathogens encountered in the alimentary canal.
Glossary
- accessory digestive organ
- includes teeth, tongue, salivary glands, gallbladder, liver, and pancreas
- alimentary canal
- continuous muscular digestive tube that extends from the mouth to the anus
- motility
- movement of food through the GI tract
- mucosa
- innermost lining of the alimentary canal
- muscularis
- muscle (skeletal or smooth) layer of the alimentary canal wall
- myenteric plexus
- (plexus of Auerbach) major nerve supply to alimentary canal wall; controls motility
- retroperitoneal
- located posterior to the peritoneum
- serosa
- outermost layer of the alimentary canal wall present in regions within the abdominal cavity
- submucosa
- layer of dense connective tissue in the alimentary canal wall that binds the overlying mucosa to the underlying muscularis
- submucosal plexus
- (plexus of Meissner) nerve supply that regulates activity of glands and smooth muscle
Contributors and Attributions
OpenStax Anatomy & Physiology (CC BY 4.0). Access for free athttps://openstax.org/books/anatomy-and-physiology
FAQs
21.2: Organs of the Digestive System? ›
The organs of the alimentary canal are the mouth, pharynx, esophagus, stomach, small intestine, and large intestine. The accessory digestive structures include the teeth, tongue, salivary glands, liver, pancreas, and gallbladder.
What are the 12 main organs of the digestive system? ›The gastrointestinal tract consists of the oral cavity, pharynx, esophagus, stomach, small intestine, and large intestine. The accessory organs are the teeth, tongue, and glandular organs such as salivary glands, liver, gallbladder, and pancreas.
What are the organs of the digestive system in order? ›The organs that food and liquids travel through when they are swallowed, digested, absorbed, and leave the body as feces. These organs include the mouth, pharynx (throat), esophagus, stomach, small intestine, large intestine, rectum, and anus.
What do the 19 digestive organs include? ›- The mouth and oesophagus.
- The stomach.
- The small intestine.
- Pancreas.
- Liver.
- The large intestine.
- Common problems in the digestive system.
- Salivary glands.
- Pharynx.
- Esophagus.
- Stomach.
- Small Intestine.
- Large Intestine.
- Rectum.
- Accessory digestive organs: liver, gallbladder, pancreas.
These include the mouth, pharynx (throat), esophagus, stomach, small intestine, large intestine, rectum, and anus. The digestive system also includes the salivary glands, liver, gallbladder, and pancreas, which make digestive juices and enzymes that help with digestion.
What are the 9 major organs in the digestive system? ›Overview. The human body uses the process of digestion to break down food into a form that can be absorbed and used for fuel. The organs of the digestive system are the mouth, esophagus, stomach, pancreas, liver, gallbladder, small intestine, large intestine and anus.
What are the 3 major organs of the digestive system? ›The organs of the digestive system can be divided into upper and lower digestive tracts. The upper digestive tract consists of the esophagus, stomach, and the small intestine; the lower tract includes all of the large intestine, the rectum, and anus.
Which of the following is not an organ of the digestive tract? ›The spleen plays multiple supporting roles in the body. It acts as a filter for blood as part of the immune system. The spleen is not part of the digestive system, however, is connected to the blood vessels of both the stomach and the pancreas.
What are the main parts and functions of the digestive system? ›It is a long, twisting tube that starts at the mouth and goes through the oesophagus, stomach, small intestine, large intestine and anus. The digestive system breaks down food into nutrients such as carbohydrates, fats and proteins.
Which digestive organ is the last organ food passes? ›
Anus: The last part of the digestive tract, the anus, consists of pelvic floor muscles and two anal sphincters (internal and external).
What are the 13 parts of the alimentary canal in order? ›The alimentary tract of the digestive system is composed of the mouth, pharynx, esophagus, stomach, small and large intestines, rectum and anus. Associated with the alimentary tract are the following accessory organs: salivary glands, liver, gallbladder, and pancreas.
What are the organs of the digestive system Wiki? ›The human digestive system consists of the gastrointestinal tract plus the accessory organs of digestion (the tongue, salivary glands, pancreas, liver, and gallbladder). Digestion involves the breakdown of food into smaller and smaller components, until they can be absorbed and assimilated into the body.
What are the organs of the digestive system 5th grade science? ›The different organs, or body parts, that are involved in this process make up the digestive system. of the digestive system are the mouth, the pharynx, the esophagus, the stomach, and the small and large intestines. The liver, the gall bladder, and the pancreas also help in the process of digestion.
What are the 11 steps of the digestive system in order? ›- Mouth.
- Esophagus.
- Stomach.
- The small intestine.
- Colon (large intestine)
- Rectum.
It consists of the (i) buccal cavity, (ii) oesophagus, (iii) stomach, (iv) small intestine, (v) large intestine ending in rectum and (vi) anus. The main digestive glands which secrete digestive juices are (i) the salivary glands, (ii) the liver and (iii) the pancreas.
What are the parts of the digestive system quizlet? ›The digestive system includes Teeth, Mouth, Esophagus, Stomach, Small, Intestine, Large Intestine. It relies on support from other organs like the Liver, Gall Bladder, and Pancreas.
What are the 11 organ systems organs? ›These 11 major organ systems of our human body are the integumentary system (skin), skeletal, muscular, nervous, endocrine, cardiovascular, lymphatic, respiratory, digestive, urinary, and reproductive systems.
What are the 10 major organ system of the body? ›Ten major systems include the skeletal, muscular, nervous, endocrine, cardiovascular, lymphatic, respiratory, digestive, urinary, and the reproductive system. Body functions are the physiological or psychological functions of body systems.
Are there 10 or 11 organ systems? ›The 11 organ systems include the integumentary system, skeletal system, muscular system, lymphatic system, respiratory system, digestive system, nervous system, endocrine system, cardiovascular system, urinary system, and reproductive systems.
What are the 5 main organs? ›
The human body contains five organs that are considered vital for survival. They are the heart, brain, kidneys, liver, and lungs. The locations of these five organs and several other internal organs are shown in Figure 10.4.
How many organs are in the body? ›Altogether there are seventy-eight main organs within the human body. These organs work in coordination to give rise to several organ systems. Among these 78 organs, five organs are considered vital for survival. These include the heart, brain, kidneys, liver and lungs.
How many organ systems are in the body? ›The human organism consists of eleven organ systems. They are Integumentary System, Skeletal System, Muscular System, Nervous System, Endocrine System, Cardiovascular System, Lymphatic System, Respiratory System, Digestive System, Urinary System, and Reproductive System (Female and Male).
What is digestive system class 10? ›The digestive system of the human body is the sum of the gastrointestinal tract (GIT; also called alimentary canal) and accessory organs (tongue, liver, pancreas, etc.). These two parts together help in the digestion process. The alimentary canal is the long tube through which the food that we eat is passed.
What is the smallest organ in the digestive system? ›Answer and Explanation: The smallest organ in the digestive system is somewhat of a tie between the anus and the cecum. Both structures are between two and three inches long or wide in an adult human.
What is the most important organ in the digestive system? ›The small intestine is the most important organ of the digestive system as it serves both, for digestion and absorption. It receives two digestive juices; the bile and the pancreatic juice in the duodenum. These two juices virtually complete the digestion of starch, proteins, carbohydrates, etc.
Which two organs are not part of the digestive system? ›Organs that help with digestion, but are not part of the digestive tract, are the: Tongue. Glands in the mouth that make saliva. Pancreas.
Which of the following organs has no digestive function? ›The liver produces bile juice which does not have any digestive enzymes but only bile salts and bile pigments are present in it. Thus, the correct answer is option C. Was this answer helpful?
What organ produces bile? ›The cells of the liver produce about 800 to 1,000 milliliters (about 27 to 34 fluid ounces) of bile every day. Bile is a yellow, brownish or olive-green liquid that helps our body digest fats. The liver cells secrete the bile into small canals that lead to the common bile duct.
How long does it take for food to leave your stomach? ›After you eat, it takes about six to eight hours for food to pass through your stomach and small intestine. Food then enters your large intestine (colon) for further digestion, absorption of water and, finally, elimination of undigested food. It takes about 36 hours for food to move through the entire colon.
Which organ absorbs water? ›
Your large intestine absorbs water, and the waste products of digestion become stool.
What is on the left side of the digestive system? ›Your stomach sits in your upper abdomen on the left side of your body. The top of your stomach connects to a valve called the esophageal sphincter (a muscle at the end of your esophagus). The bottom of your stomach connects to your small intestine.
How long does it take for food to be digested and pooped out? ›A stomach that functions properly will empty in 4 to 6 hours. Food generally takes 5 hours to move through the small intestine and 10 to 59 hours to move through the colon.
Which is the largest organ in the digestive system and produces bile? ›Your liver continually produces bile. This is a chemical that helps turn fats into energy that your body uses. Bile is necessary for the digestive process. Your liver also creates albumin.
What is the digestive system PDF? ›The digestive system consists of the alimentary canal and its principal associated organs, namely, the tongue, teeth, salivary glands, pancreas, liver, and gallbladder. As it passes through the alimentary canal, food is broken down physically and chemically so that the degraded products can be absorbed into the body.
How many types of digestion are there? ›Digestion is a form of catabolism or breaking down of substances that involves two separate processes: mechanical digestion and chemical digestion.
What is digestive system grade 7 biology? ›The digestive system is composed of the alimentary canal and associated glands. Humans take food through the mouth, digest the food and finally, the undigested food is removed from the body. The food passes from the oral cavity and finally, the undigested food is defecated through the anus.
What is digestive system grade 4? ›Digestive system begins at the mouth where food is mixed with saliva to make it soft and it is cut and ground into small pieces. Buccal cavity, commonly known as the mouth, acts as an entrance to the digestive system. It consists of lips, cheeks, teeth and gums. Food then goes into the stomach via Esophagus.
What is digestion grade 4? ›Our body needs to breakdown the food we eat to absorb the nutrients it needs. This process is called digestion. Digestion happens in the digestive system, which begins in the mouth and ends at the anus.
What are the 3 major organs of the digestive tract? ›stomach (and duodenum) small intestine (or small bowel) colon (or large intestine/bowel) and rectum.
What are the 5 organs of the digestive system? ›
The digestive system is made up of the digestive tract and other organs that help the body break down and absorb food. It is a long, twisting tube that starts at the mouth and goes through the oesophagus, stomach, small intestine, large intestine and anus.
What are the 5 main functions of the digestive system? ›Figure 2: The digestive processes are ingestion, propulsion, mechanical digestion, chemical digestion, absorption, and defecation.
What are the 3 main types of digestive system? ›The four basic types of digestive systems in animals are monogastric, avian, ruminant, and pseudo-ruminant.
What are the 2 types of digestive organs? ›Regions of the digestive system can be divided into two main parts: the alimentary tract and accessory organs.
What are the 4 accessory organs of the digestive system? ›- Salivary Glands. Three pairs of major salivary glands (parotid, submandibular, and sublingual glands) and numerous smaller ones secrete saliva into the oral cavity, where it is mixed with food during mastication. ...
- Liver. ...
- Gallbladder. ...
- Pancreas.
The kidneys are 2 bean-shaped organs. They are located below the ribs toward the middle of the back. Their function is to: Remove liquid waste from the blood in the form of urine.
What are the 6 types of digestive system? ›- Herbivores, Omnivores, and Carnivores.
- Invertebrate Digestive Systems.
- Vertebrate Digestive Systems.
- Monogastric: Single-chambered Stomach.
- Avian.
- Ruminants.
- Pseudo-ruminants.
- Parts of the Digestive System. Oral Cavity. Esophagus. Stomach. Small Intestine. Large Intestine. Rectum and Anus.
The digestive processes are ingestion, propulsion, mechanical digestion, chemical digestion, absorption, and defecation. Some chemical digestion occurs in the mouth. Some absorption can occur in the mouth and stomach, for example, alcohol and aspirin.
What are 10 facts about the digestive system? ›- Your Digestive System Is Surprisingly Long. ...
- You Produce a Lot of Saliva. ...
- Swallowing Is a Pretty Complex Operation. ...
- Your Stomach Produces Hydrochloric Acid. ...
- Your Pancreas and Liver Are Not so Mysterious. ...
- So Much Happens in Your Small Intestine. ...
- Fiber Is Very Important.
- • Six Functions of the Digestive System.
- Ingestion.
- Mechanical processing.
- Digestion.
- Secretion.
- Absorption.
- Excretion.
What are the 4 types of digestive tracts? ›
Digestion systems are classified into four types: monogastric, avian, ruminant, and pseudo-ruminant.