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forensic botany ....................................

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Forensic Botany Unit 1
Botany vs. Forensic Botany 🠶 Botany is the scientific study of the physiology, structure, genetics, ecology, distribution, classification, and economic importance of plants. 🠶 Forensic Botany is putting the above knowledge in use for solving crimes. 🠶 Criminal wood smuggling 🠶 Crimes where pollens or leaf extracts can help fix SOC – Forensic palynology 🠶 In drowning deaths – Forensic Limnology
🠶 Sub branches of General botany 🠶 Plant Morphology 🠶 Plant Anatomy 🠶 Plant Systemics 🠶 Plant propagation 🠶 Plant ecology
🠶 Plant morphology
🠶 Plant Anatomy
🠶 Plant Systemics is the study of plant diversity that includes taxonomy and plant evolutionary relationships. 🠶 This is the study of how plants are currently classified or grouped based on different morphological or molecular characteristics. 🠶 A basic understanding of how different plant species are related to one another can help with distinguishing between plant species that look similar (and may be closely related) and accurately identifying real differences between two samples that may have evidentiary value from a crime scene.
🠶 Plant Propagation
🠶 Plant Ecology 🠶 Studies the abundance of plants in different seasonal regions, their conservation and their relationship with humans and the sustenance of the universe.
🠶 Root 🠶 Roots anchor the plant in the soil and take up minerals, salts, and water, and store food. 🠶 In grasses and monocotyledonous species, the roots form a fibrous cluster and are of approximately equal size. 🠶 In most dicotyledonous plant species, like carrots and radishes, a main root (taproot) grows downward and smaller roots grow off the main root.
🠶 Stem 🠶 Stems are support structures above the soil surface and can be green or woody, and can possess protective thorns or modifications such as tendrils. 🠶 Leaves are distributed in regular patterns along a stem. The part of the stem where a leaf is connected is a node; the stem between nodes is called the internode.
🠶 Flowers 🠶 Floral buds can be arranged in clusters along a stem, between the node and the stem (an axillary position), or at the tip of each stem (a terminal position). 🠶 A flower consists of specialized leaves, and those parts are called the sepals, petals, stamens, and carpels.
🠶 Leaves 🠶 As we all know, leaves are specialized structures for performing photosynthesis and transpiration. 🠶 Photosynthesis, as previously discussed, is a process for obtaining nutrients for a plant. 🠶 Transpiration is a process by which plants lose water to the environment as vapor. The high surface- to-volume ratio of a flat, thin leaf is helpful for gas exchange as well as allowing for sunlight to penetrate all cells.
🠶 Plant cell
🠶 Plants are classified in many ways. 🠶 Vegetables & herbs 🠶 Fruit bearing plants 🠶 Landscaping plants 🠶 Grasses 🠶 Toxic plants
Forensic Palynology 🠶 Pollens and juices from plants can be deposited on victim / accused and can be used a secondary link o prove one’s presence and involvement in crimes. 🠶 It is a secondary transfer that we want to prove here.
Forensic Palynology 🠶 Botanical evidence can be found associated with a wide variety of crimes. The exact location of the botanical evidence and the type of samples recovered will be highly dependent on the type of crime. Botanical evidence that appears foreign to the crime scene is the easiest type to recognize and occurs primarily as displaced leaves, seeds, or pollen that do not appear associated with plants in the vicinity. Some types of botanical evidence are more difficult to identify, such as leaves that have been removed from a plant or broken branches. It is useful to document this type of information, but one must bear in mind that a broken branch may not actually be associated with the crime. However, if leaves or seeds are discovered on a body in an abandoned automobile, it may help in determining the primary crime scene and the perpetrator.
Forensic Palynology 🠶 Primary crime scenes are where a body or criminal event has occurred and the evidence and the body remain at the site. Secondary crime scenes are where, for example, the body was dumped but not where the homicide took place. Another example of a secondary crime scene is where stolen equipment is recovered in a toolshed but was removed from the primary residence several miles away. At a primary crime scene, botanical evidence can be located in, on, or around the body. Some examples include leaves on the back of a victim, algae in the mouth of a victim, or pollen grains inhaled by the victim and lodged in the nasal cavity. At a secondary crime scene, leaves, branches, and pollen associated with a body, caught in the undercarriage of an automobile, or retained inside stolen electronic equipment can provide a link back to the primary scene. Botanical evidence may be useful in determining or reconstructing key aspects of the crime. For example, all crime scenes have the following elements: a point of entry, a path traveled by the perpetrator, a target area where the crime occurred, and a point of exit
Forensic Palynology 🠶 We collect the botanical evidence from clothes / body etc. 🠶 We examine under the microscope to study the pollen grains, juice extracts etc. to compare. 🠶 Control samples from the suspected area are also necessary.
Forensic Limnology 🠶 In drowning, water enters the alveolar spaces in the lungs. This causes cessation of breathing, lack of oxygen supply to the cells (hypoxia) and death. 🠶 The changes induce haemodilution (water in blood), hypervolemia (reduction in blood due to trauma), hypnonatremia(reduction in sodium), hyperkalemia (reduction in potassium) and haemolysis (lysis of blood). 🠶 The body is heaver than water and drowns. But slowly decomposition starts and causes gas production, which causes bloating and the body floats. 🠶 One of the signs of drowning would be large amounts of froth present around nostrils and mouth in freshly drowned bodies. This is because of the air passages gasping for breath in the water. 🠶 The skin becomes wrinkled, pale and sodden like a “washer woman’s skin”. 🠶 There is detachment of the thick keratin of hands and feet which pull off in “glove and stoking fashion” (de-gloving). 🠶 The lungs will be heavy due to the water. And will have lot of blood vessel breakages.
Forensic Limnology
Forensic Limnology 🠶Identification of cause of drowning – whether the person died due to the drowning or whether drowning was staged to cover up a earlier crime is the key to drowning case investigation.
Forensic Limnology 🠶Limnology is the study of algae, specifically diatoms. 🠶 Diatoms like already mentioned are algae with silicaceous layer for a cell wall. They naturally occur in many different shapes and sizes.
Forensic Limnology 🠶Diatoms are interesting algae, as there are so many different shapes of them available and they are also seen particularly in specific water bodies – they are almost unique to the water body they are present in. There will only be minimal similarity in algae found in nearby water bodies.
Forensic Limnology 🠶These diatoms are not easily degradeable due to the silicaceous layer. 🠶They enter the human body during drowning deaths. 🠶In a person who is already dead and later falls into water, the diatoms in the water will enter into all his un-sterile body parts – meaning the parts where they can easily enter. 🠶But in a person who dies due to the drowning, due to hemodilation and breakage of blood vessels that happen, the algae are deposited even in the sterile parts of his body.
Forensic Limnology 🠶 In drowning cases, one sample that is important to collect is the water sample in the water body, and during the autopsy sterile area needs to be collected. 🠶Sterile areas are the long bone marrows and brain. 🠶The common sterile area used is the long bone marrow from femur and sternum.
Collection of Botanical evidence 🠶 The collection of plant fragments, seeds, flowers, and fruits should all be performed by hand. 🠶 Whole plants and any fragments that may potentially be useful for a physical match should be collected as well as any pieces associated with a body. 🠶 Botanical fragments in and on motor vehicles should be collected; in particular, the wheel wells, in and under floor mats, the undercarriage, pedals, windshield wipers, vents, trunk, and engine compartments should be fully examined. Care should be taken to avoid vacuuming a vehicle for microscopic trace evidence until all plant fragments have been collected by hand.
Collection of Botanical evidence 🠶 Botanical evidence should be collected in paper, not plastic, when possible. 🠶 Plant matter in stomach contents would most likely be collected during autopsy by the medical examiner. Fecal matter deserves a special note on collection methods since it differs from most aspects of botanical collection. For fecal matter and later possible plant identification, the sample should be kept moist. If a fresh deposit, then the sample should be stored in glass or plastic. Dried feces or soiled clothing can be placed in paper bags and sealed. 🠶 For microscopic analysis for plant cell identification, a 10% formalin solution as a preservative is acceptable. However, if plant DNA analysis may be performed, storing the sample in a freezer is optimal.

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forensic botany ....................................

  • 2. Botany vs. Forensic Botany 🠶 Botany is the scientific study of the physiology, structure, genetics, ecology, distribution, classification, and economic importance of plants. 🠶 Forensic Botany is putting the above knowledge in use for solving crimes. 🠶 Criminal wood smuggling 🠶 Crimes where pollens or leaf extracts can help fix SOC – Forensic palynology 🠶 In drowning deaths – Forensic Limnology
  • 3. 🠶 Sub branches of General botany 🠶 Plant Morphology 🠶 Plant Anatomy 🠶 Plant Systemics 🠶 Plant propagation 🠶 Plant ecology
  • 6. 🠶 Plant Systemics is the study of plant diversity that includes taxonomy and plant evolutionary relationships. 🠶 This is the study of how plants are currently classified or grouped based on different morphological or molecular characteristics. 🠶 A basic understanding of how different plant species are related to one another can help with distinguishing between plant species that look similar (and may be closely related) and accurately identifying real differences between two samples that may have evidentiary value from a crime scene.
  • 8. 🠶 Plant Ecology 🠶 Studies the abundance of plants in different seasonal regions, their conservation and their relationship with humans and the sustenance of the universe.
  • 9. 🠶 Root 🠶 Roots anchor the plant in the soil and take up minerals, salts, and water, and store food. 🠶 In grasses and monocotyledonous species, the roots form a fibrous cluster and are of approximately equal size. 🠶 In most dicotyledonous plant species, like carrots and radishes, a main root (taproot) grows downward and smaller roots grow off the main root.
  • 10. 🠶 Stem 🠶 Stems are support structures above the soil surface and can be green or woody, and can possess protective thorns or modifications such as tendrils. 🠶 Leaves are distributed in regular patterns along a stem. The part of the stem where a leaf is connected is a node; the stem between nodes is called the internode.
  • 11. 🠶 Flowers 🠶 Floral buds can be arranged in clusters along a stem, between the node and the stem (an axillary position), or at the tip of each stem (a terminal position). 🠶 A flower consists of specialized leaves, and those parts are called the sepals, petals, stamens, and carpels.
  • 12. 🠶 Leaves 🠶 As we all know, leaves are specialized structures for performing photosynthesis and transpiration. 🠶 Photosynthesis, as previously discussed, is a process for obtaining nutrients for a plant. 🠶 Transpiration is a process by which plants lose water to the environment as vapor. The high surface- to-volume ratio of a flat, thin leaf is helpful for gas exchange as well as allowing for sunlight to penetrate all cells.
  • 14. 🠶 Plants are classified in many ways. 🠶 Vegetables & herbs 🠶 Fruit bearing plants 🠶 Landscaping plants 🠶 Grasses 🠶 Toxic plants
  • 15. Forensic Palynology 🠶 Pollens and juices from plants can be deposited on victim / accused and can be used a secondary link o prove one’s presence and involvement in crimes. 🠶 It is a secondary transfer that we want to prove here.
  • 16. Forensic Palynology 🠶 Botanical evidence can be found associated with a wide variety of crimes. The exact location of the botanical evidence and the type of samples recovered will be highly dependent on the type of crime. Botanical evidence that appears foreign to the crime scene is the easiest type to recognize and occurs primarily as displaced leaves, seeds, or pollen that do not appear associated with plants in the vicinity. Some types of botanical evidence are more difficult to identify, such as leaves that have been removed from a plant or broken branches. It is useful to document this type of information, but one must bear in mind that a broken branch may not actually be associated with the crime. However, if leaves or seeds are discovered on a body in an abandoned automobile, it may help in determining the primary crime scene and the perpetrator.
  • 17. Forensic Palynology 🠶 Primary crime scenes are where a body or criminal event has occurred and the evidence and the body remain at the site. Secondary crime scenes are where, for example, the body was dumped but not where the homicide took place. Another example of a secondary crime scene is where stolen equipment is recovered in a toolshed but was removed from the primary residence several miles away. At a primary crime scene, botanical evidence can be located in, on, or around the body. Some examples include leaves on the back of a victim, algae in the mouth of a victim, or pollen grains inhaled by the victim and lodged in the nasal cavity. At a secondary crime scene, leaves, branches, and pollen associated with a body, caught in the undercarriage of an automobile, or retained inside stolen electronic equipment can provide a link back to the primary scene. Botanical evidence may be useful in determining or reconstructing key aspects of the crime. For example, all crime scenes have the following elements: a point of entry, a path traveled by the perpetrator, a target area where the crime occurred, and a point of exit
  • 18. Forensic Palynology 🠶 We collect the botanical evidence from clothes / body etc. 🠶 We examine under the microscope to study the pollen grains, juice extracts etc. to compare. 🠶 Control samples from the suspected area are also necessary.
  • 19. Forensic Limnology 🠶 In drowning, water enters the alveolar spaces in the lungs. This causes cessation of breathing, lack of oxygen supply to the cells (hypoxia) and death. 🠶 The changes induce haemodilution (water in blood), hypervolemia (reduction in blood due to trauma), hypnonatremia(reduction in sodium), hyperkalemia (reduction in potassium) and haemolysis (lysis of blood). 🠶 The body is heaver than water and drowns. But slowly decomposition starts and causes gas production, which causes bloating and the body floats. 🠶 One of the signs of drowning would be large amounts of froth present around nostrils and mouth in freshly drowned bodies. This is because of the air passages gasping for breath in the water. 🠶 The skin becomes wrinkled, pale and sodden like a “washer woman’s skin”. 🠶 There is detachment of the thick keratin of hands and feet which pull off in “glove and stoking fashion” (de-gloving). 🠶 The lungs will be heavy due to the water. And will have lot of blood vessel breakages.
  • 21. Forensic Limnology 🠶Identification of cause of drowning – whether the person died due to the drowning or whether drowning was staged to cover up a earlier crime is the key to drowning case investigation.
  • 22. Forensic Limnology 🠶Limnology is the study of algae, specifically diatoms. 🠶 Diatoms like already mentioned are algae with silicaceous layer for a cell wall. They naturally occur in many different shapes and sizes.
  • 23. Forensic Limnology 🠶Diatoms are interesting algae, as there are so many different shapes of them available and they are also seen particularly in specific water bodies – they are almost unique to the water body they are present in. There will only be minimal similarity in algae found in nearby water bodies.
  • 24. Forensic Limnology 🠶These diatoms are not easily degradeable due to the silicaceous layer. 🠶They enter the human body during drowning deaths. 🠶In a person who is already dead and later falls into water, the diatoms in the water will enter into all his un-sterile body parts – meaning the parts where they can easily enter. 🠶But in a person who dies due to the drowning, due to hemodilation and breakage of blood vessels that happen, the algae are deposited even in the sterile parts of his body.
  • 25. Forensic Limnology 🠶 In drowning cases, one sample that is important to collect is the water sample in the water body, and during the autopsy sterile area needs to be collected. 🠶Sterile areas are the long bone marrows and brain. 🠶The common sterile area used is the long bone marrow from femur and sternum.
  • 26. Collection of Botanical evidence 🠶 The collection of plant fragments, seeds, flowers, and fruits should all be performed by hand. 🠶 Whole plants and any fragments that may potentially be useful for a physical match should be collected as well as any pieces associated with a body. 🠶 Botanical fragments in and on motor vehicles should be collected; in particular, the wheel wells, in and under floor mats, the undercarriage, pedals, windshield wipers, vents, trunk, and engine compartments should be fully examined. Care should be taken to avoid vacuuming a vehicle for microscopic trace evidence until all plant fragments have been collected by hand.
  • 27. Collection of Botanical evidence 🠶 Botanical evidence should be collected in paper, not plastic, when possible. 🠶 Plant matter in stomach contents would most likely be collected during autopsy by the medical examiner. Fecal matter deserves a special note on collection methods since it differs from most aspects of botanical collection. For fecal matter and later possible plant identification, the sample should be kept moist. If a fresh deposit, then the sample should be stored in glass or plastic. Dried feces or soiled clothing can be placed in paper bags and sealed. 🠶 For microscopic analysis for plant cell identification, a 10% formalin solution as a preservative is acceptable. However, if plant DNA analysis may be performed, storing the sample in a freezer is optimal.