2. Introduction
The blood vascular system of Pheretima is of closed type. It consists of the blood
vessels, hearts, loops, capillaries and the blood glands.
Blood:
The blood of Pheretima is red colored due to the presence of a respiratory pigment
haemoglobin in it. The haemoglobin is not contained in the corpuscles like the
vertebrates but it is found dissolved in the plasma. The plasma also contains many
corpuscles which are colorless and nucleated.
Blood Vessels:
The blood vessels are of two types collecting blood vessels and distributing blood
vessels which are closed tubes with definite walls and they break up into capillaries to
ramify in the different parts of the body. The arrangement of blood vessels in the
anterior thirteen segments is somewhat different from that behind the thirteen segment,
i.e., in the region of intestine.
3. Therefore, for convenience the blood vessels can be described under the following
two heads:
A. Blood vessels and their arrangement in the segments behind 13th, i.e., intestinal
region.
B. Blood vessels and their arrangement in the anterior thirteen segments.
A.Blood Vessels and their Arrangement in the Segments behind 13th, i.e.,
Intestinal Region:
The blood vessels of this region include:
1. Median longitudinal blood vessels;
2. The intestinal blood plexus;
3. The commissural vessel;
4. The integumentary vessel; and
5. The nephridial vessels.
4. 1. Median Longitudinal Blood Vessels:
(i) Dorsal Vessel:
It runs mid-dorsally above the alimentary canal from the posterior to the anterior end of the
body. It is the thickest vessel with contractile muscular walls visible from outside as a dark
line through the thin and semi transparent body wall.
The direction of flow of blood in this vessel remains from behind to forward (from posterior
to anterior). It is contractile and pulsates rhythmically to force the blood from posterior to
anterior side. In each segment it has a pair of valves internally which check the backward
flow of blood. It is the main collecting vessel behind the 14th segment, but in front it
distributes the blood.
From the posterior segment up to the 14th segment it receives two pairs of dorso intestinal
vessels from the intestine in each segment and a pair of commissural vessels from the sub-
neural vessel.
The commissural vessels form a loop behind each septum and they receive blood from the
body wall, nephridia and prostrate glands. The commissural vessels also give out blood in
each segment through a septointestinal branch to the intestine.
5. Fig- Pheritima –The Blood Vascular system in the anterior 13 segment in the body.
6. Fig- Pheritima –A part of body wall on the left side has been cut and reflected in order to
blood vessels in position.
7. (ii) Ventral Vessel:
It is also a long vessel and runs ventrally below the alimentary canal and above the
ventral nerve cord from second segment up to the last segment of the body.
It is thin- walled without muscles and valves. The direction of flow of blood in this vessel
remains from anterior to the posterior side or from in front to backwards. It is a
distributing vessel. It gives out a pair of ventrotegumentary vessels, one on each side in
front of the septum in all segments.
The ventrotegumentary vessels run upwards along the body wall and supply blood to the
body wall, integumentary nephridia, septal nephridia, gonads, seminal vesicles and
spermathecae.
The ventral vessel also gives out a ventrointestinal vessel in each segment behind the 13th
segment, these take blood to the lower part of the intestine. The branches in intestine form
blood plexuses consisting of two networks in the intestinal wall.
(iii) Sub-neural Vessel:
It is also a long but thin vessel extending from anterior 14th segment up to the last
segment situated mid-ventrally below the ventral nerve cord. It is without muscular walls
and internal valves. The direction of flow of blood in this vessel remains from anterior to
posterior side and it is mainly a collecting vessel.
8. It receives a pair of slender branches in each segment which bring blood from the ventral body wall
and the nerve cord. It gives a pair of commissural vessels in each segment which join the dorsal
vessel, as already mentioned while describing the dorsal vessel. Thus, it collects blood from the
ventral body wall and supplies some blood to the intestine.
2. Intestinal Blood Plexus:
The intestine of Pheretima is richly supplied with blood capillaries which form a close network.
The intestinal blood plexus consists of a close network of capillaries in the wall of intestine.
In fact, there are two capillary networks in the intestine:
(i) The external and
(ii) The internal.
The capillary network which is present at the outer surface of intestine is known as external plexus
which receives blood from the ventral vessel through ventrointestinal and passes it on to the
internal plexus.
The capillary network which is present between the circular muscle layer of intestine and its
internal epithelial lining is known as internal plexus which serves to absorb the nutrients from the
gut and is connected with dorsal blood vessel through the dorsointestinals.
3. Commissural Vessels:
These vessels connect the dorsal and sub-neural vessels. These vessels receive blood from
nephridia, body wall and reproductive organs through capillaries and then they send it to dorsal
blood vessel.
9. 4. Integumentary Vessels:
These vessels coming from ventral vessels supply the blood to integument for aeration and
the aerated blood is collected by numerous capillaries of commissural vessel in each
segment. Thus, there is a close parallelism between venous and arterial capillaries
throughout the body wall.
5. Nephridial Vessels:
These vessels originate from the ventrotegumentary vessels of ventral vessel and
supply the blood to the nephridia.
B. Blood Vessels and their Arrangement in the Anterior 13 Segments:
The blood vascular system in the first thirteen segments is modified considerably and
differs markedly from that of the intestinal region.
It consists of the following:
1. Median longitudinal vessels;
2. Hearts and anterior loops;
3. Blood vessels of the gut.
The function of collecting blood from the anterior region of the gut is taken over by a new
vessel supra-oesophageal, while the blood from the peripheral structures is collected by the
right and left lateral oesophageal.
10. 1. Median Longitudinal Blood Vessels:
(i) Dorsal vessel:
This blood vessel becomes the distributing vessel in these segments instead of collecting
vessel. Structurally, it retains its original identity as it was in the posterior segments. But is
has neither dorsointestinals nor commissural vessels opening into it.
It sends out all the collected blood from the posterior region of the body into hearts and the
anterior region of the gut where it divides into three branches distributed over the pharyngeal
bulb and the roof of the buccal chamber. However, it supplies to stomach, gizzard,
oesophagus, pharynx and other related parts.
(ii) Ventral vessel:
This blood vessel remains distributing in these segments also but extends only up to the
second segment. The ventrointestinals are absent, hence, it does not supply to the alimentary
canal in this region. However, the ventrotegumentary vessels, a pair in each segment, supply
blood to the integument, nephridia, septa and reproductive organs.
(iii) Supra-oesophageal vessel:
It is the shortest longitudinal vessel extending from 9th to 13th segment situated above the
stomach. It receives blood from the lateral oesophageals by two pairs of anterior loops that
encircle the stomach in the 10th and 11th segments. It sends its collected blood by the latero-
oesophageal hearts in segments 12th and 13th to the ventral vessel.
11. (iv) Lateral oesophageals:
In fact, the sub-neural vessel bifurcates in the 14th segment to form two lateral
oesophageals. These vessels are considerably thick and situated along the ventrolateral
margins of alimentary canal in the anterior thirteen segments. These vessels are closely
attached to the wall of the stomach from 10th to 13th segments and communicate with the
ring vessels.
But in the region of gizzard and further forwards, they remain free from the wall of the
alimentary canal even though they receive branches from it in each segment.
These vessels receive a pair of branches in each segment bringing blood from the body wall
and the septum. They also collect blood from the reproductive organs and nephridia, thus,
functioning like the sub-neural and commissural vessels of the posterior region, i.e., these
are collecting vessels.
2. Hearts and Anterior Loops:
In the posterior segments behind 13th the dorsal and ventral blood vessels have no direct
connections but anteriorly both these vessels are connected together by 4 pairs of pulsatile
hearts which are neurogenic, i.e., the heart beat originates in the nerve cells of the hearts.
The hearts are contractile and encircle the alimentary canal, they are in the segments 7th,
9th, 12th and 13th.
12. The hearts of segments 12th and 13th are joined above to both the dorsal and the oesophageal
vessels, these are called latero-oesophageal hearts. These hearts have thick muscular walls and a
pair of valves at each junction with the dorsal vessels and supra-oesophageal vessel, and another
pair of valves at the ventral end.
These valves allow blood to flow downwards only. The other hearts of the segment 7th
and 9th are called lateral hearts. These connect the dorsal vessels to the ventral vessel. They
have four pairs of valves which allow blood to flow only downwards.
Besides four pairs of hearts there are two pairs of loop-like vessels in the 10th and
11th segments which connect the supra-oesophageal with the lateral oesophageals. These vessels
are neither muscular nor pulsatile and are called anterior loops. These are devoid of valves.
The blood from lateral oesophageals flows through these loops into supra-oesophageal which
sends all its collected blood into ventral vessel through the hearts of 12th and 13th segments.
3. Blood Vessels of the Gut:
On either side of stomach are situated ring-like vessels which connect the supra-oesophageal
and lateral-oesophageal vessels. Through these vessels blood flows upwards from the lateral-
oesophageals into the supra-oesophageal. Buccal cavity, pharynx and gizzard receive their blood
supply from dorsal blood vessel directly.
14. Circulation of Blood:
The blood collected by the dorsal vessel through the dorsointestinals, blood plexuses of
intestine, and commissurals is given out partly to the anterior alimentary canal, but mainly
through the hearts to the ventral vessel.
In the ventral vessel the blood flows forwards to the anterior region in front of the hearts,
but the main portion of blood flows backwards, this is distributed through
ventrotegumentaries to the body wall and the organs in the coelom, and through the
ventrointestinal vessels to the alimentary canal.
In other words all parts receive blood from the ventral vessel. From the ventral body wall
blood is collected by the sub-neural which also receives some blood through the lateral-
oesophageal from the anterior region.
This blood passes from the sub-neural to the dorsal vessel through the commissurals. The
lateral-oesophageals also send blood through the anterior loops to the supra- oesophageal
vessel which then passes it through the latero-oesophageal hearts to the ventral vessel.
15. Fig- Pheritima –A- T.S. through latero- oesophageal heart
B –T.S. through a segment on the left and through a segment on the right
17. Functions:
The blood distributes digested food to various body regions, and it collects waste substances
like nitrogenous waste and C02 which are given up to nephridia, skin and the coeiomic fluid.
Respiration in almost all aquatic and terrestrial oligochaetes takes place by diffusion of gases
through the integument which in larger forms contains a capillary network in the outer
epidermal layer.
In terrestrial species the film of moisture necessary for diffusion of gases is supplied by
mucous glands, coeiomic fluid, and nephridial excretions. The haemoglobin of plasma
extracts O2 from the capillaries of the skin, but there must be a moist skin where O2 can
combine with haemoglobin to be transported by the blood.
Haemoglobin is an efficient pigment and it can take up O2 either from the surrounding air or
from an environment comparatively deficient in oxygen. Hence, earthworms can live in well
aerated water and are not drowned. They can also live for several hours without O2, in this
condition they probably carry on anaerobic respiration.
Blood Glands:
In the segments 4th, 5th and 6th above the pharyngeal mass are several groups of small
rounded follicles of red colour, which are called blood glands. The follicles have a syncytial
wall enclosing a capsule containing a mass of loose cells. The blood glands are connected
with pharyngeal nephridia and with salivary glands. These glands manufacture blood
corpuscles and haemoglobin. These glands are probably also excretory.