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Structure and development of fruit

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SATHIYA NARAYANAN

Structure and development of fruit- Development botany

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STRUCTURE AND DEVELOPMENT OF FRUIT
Fruit • A seed-bearing structure found in flowering plants or also called angiosperms is known as fruit. • It is formed from the ovary present in the seed after flowering in a plant takes place. • Fruits have great agricultural output and some of these have acquired symbolic and cultural significance .
Fruit Structure A fruit consists of an important structural component called pericarp. Pericarp: It is the outer layer which is often edible and is formed from the ovary and it surrounds the seeds.
In some species, in addition to this portion, other tissues can form the edible portion as well. The pericarp, further, consists of the following structures: • Epicarp: It is the outermost layer of pericarp. • Mesocarp: It is the middle layer of pericarp. • Endocarp: It is the innermost layer of pericarp. (The sweet juicy and edible flesh is the mesocarp, the inner most hard covering is the endocarp. These three layers are not easily distinguishable in dry fruits.)
The fruits are usually classified into three groups, namely simple, aggregate and multiple or composite fruits.
Simple fruits When a single fruit develops from a single ovary of a single flower, it is called simple fruit. The ovary may be monocarpellary or multicarpellary syncarpous. On the nature of pericarp, simple fruits are divisible into two types i) Fleshy fruits and ii) Dry fruits
Simple fleshy fruits In these fruits either the entire pericarp or part of the pericarp is succulent and juicy when fully ripe. Normally the fruit wall may be differentiated into three layers - an outer epicarp, a middle mesocarp and an inner endocarp. As a general rule, the fleshy fruits are indehiscent. Fleshy fruits are broadly divided into two kinds, baccate and drupaceous. Baccate fruits are fleshy fruits with no hard part except the seeds. Berry is an example for the first category while drupe falls under the second type.
1. Berry: It is a many seeded fruit. Here the epicarp is thin, the mesocarp and endocarp remain undifferentiated. They form a pulp in which the seeds are embedded. In these fruits, all parts including the epicarp with the seeds are edible eg. Tomato 2. Drupe: This is normally a one-seeded fruit. In these fruits the pericarp is differentiated into an outer skinny epicarp, a middle fleshy and juicy mesocarp and an inner hard and stony endocarp. Drupes are called stone fruits because of the stony hard endocarp. The endocarp encloses Follicle a single seed. The edible portion, i. Basifixed (Innate): Filament is attached to the base of the anther (eg. Brassica) of the fruit is the fleshy mesocarp eg. mango. In coconut, the mesocarp is fibrous, the edible part is the endosperm.
3. Hesperidium: It is a skind of baccate fruit that develops from a superior multicarpellary and syncarpous ovary. The fruit wall is differentiated into three layers - an outer glandular skin or epicarp, a middle fibrous mesocarp, and an inner membranous endocarp. The latter divides the fruit chamber into a number of compartments. The seeds arise on axial placentae and are covered by juicy hairs or outgrowths from the lacentae that are edible. It is characteristic fruit of the genus Citrus (Fam. Rutaceae)
4. Pepo: A large fleshy fruit developing from a tricarpellary, syncarpous, unilocular and inferior ovary with parietal placentation. The fruit is many seeded with pulpy interior; eg. Cucumber, Melon, Bottle gourd etc. 5. Pome: It is a fleshy and a false fruit or Pseudocarp. It develops from a multicarpellary syncarpous inferior ovary in which the receptacle also develops along with the ovary to become fleshy and enclosing the true fruit. The true fruit containing seeds remains inside. The edible part is fleshy thalamus. eg. Apple, Pear etc.
Simple Dry Fruits These fruits have dry pericarp, which is not distinguished into three layers. The dry simple fruits are further divided into three types- Dehiscent- Legume, Follicle, Capsule Schizocarpic - Lomentum, Cremocarp, Regma Indehiscent- Achene, Caryopsis, Nut
Aggregate fruit An aggregate fruit develops from a single flower, with multicarpellary, apocarpous, superior ovaries and each of them develops into simple fruitlets. An aggregate fruit, therefore consists of a collection of simple fruits as in Polyalthia. The carpels of the flower unite and give rise to a single fruit as in Annona squamosa.
Multiple or Composite Fruit Multiple or composite fruit is formed by all the flowers of a whole inflorescence grouped together to give a single big fruit. In a sense, multiple fruits are false fruits. In Jack, the type of multiple fruit is sorosis. The rachis and all the floral parts of the female inflorescence fuse together forming composite fruit. The inflorescence axis and the flowers all become fleshy. In the centre of the fruit, there is a club-shaped, thick, fleshy central axis, which is the inflorescence axis. The edible part of the fruit represents the perianth, which is fleshy and juicy. The pericarp is bag- like and contains one seed. The spines on the tough rind represent the stigmas of the carpel. The sterile or unfertilized flowers, occur in the form of numerous, elongated, whitish, flat structures in between the edible flakes.
3 Modes of Fruit Development 1. Apocarpous fruit development from a single flower with one or more separate carpels; these are the simplest form of fruits. 2. Syncarpous fruit development from a single gynoecium with two or more carpels that are fused together. 3. Multiple fruits that rise from multiple flowers.
Development of a Fruit The maturation of one or more flowers results in the formation of a fruit and it is the gynoceium of the flower that forms all or some parts of the fruit. 1. One or more ovules inside the ovary was fount in the egg cells are present in megagametophyte. 2. These ovules become seeds after double fertilization. 3. The ovules are then fertilized in a process starting with pollination. 4. Pollination is the movement of the pollen from the stamens to the stigma of the flowers. 5. After pollination, the pollen leads to the growth of a tube through the stigma into the ovary to the ovule. Further, two sperms are transferred to the megagametophyte from the pollen. 6. Then, a zygote formation takes place with the unison of one of the sperms with the egg within the megagametophyte.
7. The second sperm then enters the central cell and forms the endosperm mother cell, thus, completing the double fertilization process. 8. Later, embryos of the seed are formed via zygote and the endosperm mother cell gives rise to the endosperm which is a nutritive tissue used by the embryo. 9. As the seeds develop into ovules, the ovary begins to ripen and the pericarp (ovary wall) may become fleshy (such as in berries or drupes) or a hard outer covering (such as in nuts). 10. The pericarp differentiates into 2 or 4 distinct layers known as the exocarp or epicarp, mesocarp and endocarp.
Thank You…

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Structure and development of fruit

  • 2. Fruit • A seed-bearing structure found in flowering plants or also called angiosperms is known as fruit. • It is formed from the ovary present in the seed after flowering in a plant takes place. • Fruits have great agricultural output and some of these have acquired symbolic and cultural significance .
  • 3. Fruit Structure A fruit consists of an important structural component called pericarp. Pericarp: It is the outer layer which is often edible and is formed from the ovary and it surrounds the seeds.
  • 4. In some species, in addition to this portion, other tissues can form the edible portion as well. The pericarp, further, consists of the following structures: • Epicarp: It is the outermost layer of pericarp. • Mesocarp: It is the middle layer of pericarp. • Endocarp: It is the innermost layer of pericarp. (The sweet juicy and edible flesh is the mesocarp, the inner most hard covering is the endocarp. These three layers are not easily distinguishable in dry fruits.)
  • 5. The fruits are usually classified into three groups, namely simple, aggregate and multiple or composite fruits.
  • 6. Simple fruits When a single fruit develops from a single ovary of a single flower, it is called simple fruit. The ovary may be monocarpellary or multicarpellary syncarpous. On the nature of pericarp, simple fruits are divisible into two types i) Fleshy fruits and ii) Dry fruits
  • 7. Simple fleshy fruits In these fruits either the entire pericarp or part of the pericarp is succulent and juicy when fully ripe. Normally the fruit wall may be differentiated into three layers - an outer epicarp, a middle mesocarp and an inner endocarp. As a general rule, the fleshy fruits are indehiscent. Fleshy fruits are broadly divided into two kinds, baccate and drupaceous. Baccate fruits are fleshy fruits with no hard part except the seeds. Berry is an example for the first category while drupe falls under the second type.
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  • 9. 1. Berry: It is a many seeded fruit. Here the epicarp is thin, the mesocarp and endocarp remain undifferentiated. They form a pulp in which the seeds are embedded. In these fruits, all parts including the epicarp with the seeds are edible eg. Tomato 2. Drupe: This is normally a one-seeded fruit. In these fruits the pericarp is differentiated into an outer skinny epicarp, a middle fleshy and juicy mesocarp and an inner hard and stony endocarp. Drupes are called stone fruits because of the stony hard endocarp. The endocarp encloses Follicle a single seed. The edible portion, i. Basifixed (Innate): Filament is attached to the base of the anther (eg. Brassica) of the fruit is the fleshy mesocarp eg. mango. In coconut, the mesocarp is fibrous, the edible part is the endosperm.
  • 10. 3. Hesperidium: It is a skind of baccate fruit that develops from a superior multicarpellary and syncarpous ovary. The fruit wall is differentiated into three layers - an outer glandular skin or epicarp, a middle fibrous mesocarp, and an inner membranous endocarp. The latter divides the fruit chamber into a number of compartments. The seeds arise on axial placentae and are covered by juicy hairs or outgrowths from the lacentae that are edible. It is characteristic fruit of the genus Citrus (Fam. Rutaceae)
  • 11. 4. Pepo: A large fleshy fruit developing from a tricarpellary, syncarpous, unilocular and inferior ovary with parietal placentation. The fruit is many seeded with pulpy interior; eg. Cucumber, Melon, Bottle gourd etc. 5. Pome: It is a fleshy and a false fruit or Pseudocarp. It develops from a multicarpellary syncarpous inferior ovary in which the receptacle also develops along with the ovary to become fleshy and enclosing the true fruit. The true fruit containing seeds remains inside. The edible part is fleshy thalamus. eg. Apple, Pear etc.
  • 12. Simple Dry Fruits These fruits have dry pericarp, which is not distinguished into three layers. The dry simple fruits are further divided into three types- Dehiscent- Legume, Follicle, Capsule Schizocarpic - Lomentum, Cremocarp, Regma Indehiscent- Achene, Caryopsis, Nut
  • 13. Aggregate fruit An aggregate fruit develops from a single flower, with multicarpellary, apocarpous, superior ovaries and each of them develops into simple fruitlets. An aggregate fruit, therefore consists of a collection of simple fruits as in Polyalthia. The carpels of the flower unite and give rise to a single fruit as in Annona squamosa.
  • 14. Multiple or Composite Fruit Multiple or composite fruit is formed by all the flowers of a whole inflorescence grouped together to give a single big fruit. In a sense, multiple fruits are false fruits. In Jack, the type of multiple fruit is sorosis. The rachis and all the floral parts of the female inflorescence fuse together forming composite fruit. The inflorescence axis and the flowers all become fleshy. In the centre of the fruit, there is a club-shaped, thick, fleshy central axis, which is the inflorescence axis. The edible part of the fruit represents the perianth, which is fleshy and juicy. The pericarp is bag- like and contains one seed. The spines on the tough rind represent the stigmas of the carpel. The sterile or unfertilized flowers, occur in the form of numerous, elongated, whitish, flat structures in between the edible flakes.
  • 15. 3 Modes of Fruit Development 1. Apocarpous fruit development from a single flower with one or more separate carpels; these are the simplest form of fruits. 2. Syncarpous fruit development from a single gynoecium with two or more carpels that are fused together. 3. Multiple fruits that rise from multiple flowers.
  • 16. Development of a Fruit The maturation of one or more flowers results in the formation of a fruit and it is the gynoceium of the flower that forms all or some parts of the fruit. 1. One or more ovules inside the ovary was fount in the egg cells are present in megagametophyte. 2. These ovules become seeds after double fertilization. 3. The ovules are then fertilized in a process starting with pollination. 4. Pollination is the movement of the pollen from the stamens to the stigma of the flowers. 5. After pollination, the pollen leads to the growth of a tube through the stigma into the ovary to the ovule. Further, two sperms are transferred to the megagametophyte from the pollen. 6. Then, a zygote formation takes place with the unison of one of the sperms with the egg within the megagametophyte.
  • 17. 7. The second sperm then enters the central cell and forms the endosperm mother cell, thus, completing the double fertilization process. 8. Later, embryos of the seed are formed via zygote and the endosperm mother cell gives rise to the endosperm which is a nutritive tissue used by the embryo. 9. As the seeds develop into ovules, the ovary begins to ripen and the pericarp (ovary wall) may become fleshy (such as in berries or drupes) or a hard outer covering (such as in nuts). 10. The pericarp differentiates into 2 or 4 distinct layers known as the exocarp or epicarp, mesocarp and endocarp.