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ADVANTAGES AND DISADVANTAGES OF MECHANIZATION

ADVANTAGES AND DISADVANTAGES OF MECHANIZATION farm mechanization ensures that all farm operation are done and completed within a given per...

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WHAT IS CARNIVOROUS NUTRITION


CARNIVOROUS NUTRITION OR INSECTIVOROUS PLANTS MODE OF NUTRITION

Understanding Carnivorous plants
Carnivorous plants are plants that derive some or most of their nutrients (but not energy) from trapping and consuming animals or protozoans, typically insects and other arthropods. Carnivorous plants have adapted to grow in places where the soil is thin or poor in nutrients, especially nitrogen, such as acidic bogs. Charles Darwin wrote Insectivorous Plants, the first well-known treatise on carnivorous plants, in 1875.

True carnivore

is thought to have evolved independently nine times in five different orders of flowering plants and is represented by more than a dozen genera. This classification includes at least 583 species that attract, trap, and kill prey, absorbing the resulting available nutrients.

300 proto-carnivorous plant species in several genera show some but not all of these characteristics.


Carnivorous or insectivorous plants are equipped with devices for trapping, digesting and absorbing nutritive compounds from the body of insects and other small organisms. They have green leaves to help them carry out photosynthesis or photosynthetic nutrition







Carnivorous plants

usually grow in place with little nitrogenous salts and they then use insects and other smaller animals as their source of nitrogen
Examples of carnivorous or insectivorous plants are
i.

SUNDEW (DROSERA)

The Drosera plant possesses leaves capable of forming an organ to trap and digest insects and it is an example of a carnivorous plant. The upper surface of the leaves has a number of glandular hairs or tentacles. The leaf surface is sticky as a result of digestive gland in the gland.
The ends of the tentacles secretes enzymes capable of digesting insects caught.
The presence of an insect on the leaf stimulates the leaf to fold over and turn all the tentacles inwards. The insect caught get enmeshed. Secretions from the glands then pour out and cover the insect. The explanation above shows the Sundew as a carnivorous plant
ii.

BLADDERWORT (UTRACULARIA)





The Bladderwort is an aquatic carnivorous plant without the possession of roots. Some of the leaves are modified to form hair-like bladders. Each bladder has a trap door hinged on only one edge, so that it can only open inward and tend to remain closed.
In these arrangement, a trapped insect finds it difficult to escape. The captured insect eventually dies of starvation and its nutrients are then absorbed by the plant. This characteristics of Bladderwort makes it a carnivorous plant

iii.

PITCHER-PLANT OF THE NEPENTHES AND SARRACENA


The pitcher is a type of carnivorous plant and it is formed from the modified leaf while the whole leaf of the Sarracena is modified into the Pitcher plant, only the terminal leaf of Nepenthes forms the Pitcher plant
The Nepenthes as a carnivorous plant contains watery fluids secreted by glands in the lower half. The wall of the rest Pitcher above these secretion is smooth, being covered by little waxy scales.
The Pitcher as a carnivorous plant has a lid. Once at the lid, the insect falls over the rim of the Pitcher into the fluid at the bottom.
Enzymes secreted by the Pitcher aids the digestion after which the required nutrients are absorbed by the plant.

Other examples of carnivorous plants are

i. Venus-fly trap also known as Dionaea muscipula
ii. The Butterwort also called Pinguicula



Plants belonging to the genus Nepenthes are carnivorous, using specialized pitfall traps called "pitchers" that attract, capture, and digest insects as a primary source of nutrients. We have used RNA sequencing to generate a cDNA library from the Nepenthes pitchers and applied it to mass spectrometry-based identification of the enzymes secreted into the pitcher fluid using a nonspecific digestion strategy superior to trypsin in this application. This first complete catalog of the pitcher fluid subproteome includes enzymes across a variety of functional classes. The most abundant proteins present in the secreted fluid are proteases, nucleases, peroxidases, chitinases, a phosphatase, and a glucanase. Nitrogen recovery involves a particularly rich complement of proteases. In addition to the two expected aspartic proteases, we discovered three novel nepenthensins, two prolyl endopeptidases that we name neprosins, and a putative serine carboxypeptidase. Additional proteins identified are relevant to pathogen-defense and secretion mechanisms. The full complement of acid-stable enzymes discovered in this study suggests that carnivory in the genus Nepenthes can be sustained by plant-based mechanisms alone and does not absolutely require bacterial symbiosis.




Here are links to previous articles and post that are related to insectivorous or carnivorous nutrition



1. Modes of nutrition in animals
2. Saprophytic nutrition
3. Parasitic nutrition
4. Forages and farm animal nutrition
5. Water as a food substance
6. Carnivorous nutrition in plants
7. Endoparasites and Ectoparasites feeding modes
8. Holozoic mode of nutrition
9. Heterotrophic mode of nutrition
10. Autotrophic nutrition
11. Chemosynthetic nutrition
12. Importance of balance diet

13. What is Kwashiokor?
14. How to test for food
15. Vitamin deficiency symptoms
16. Mineral deficiency symptoms
17. Types of carbohydrates
18. Food substances
19. Classification of food substances
20. feeding mechanisms in holozoic organisms




agricultural biology topics
1. ENVIRONMENTAL FACTORS AFFECTING AGRICULTURAL PRODUCTION
2. DISEASES
3. 52. SOIL MICRO-ORGANISMS
4. ORGANIC MANURING
5. FARM YARD MANURE
6. HUMUS
7. COMPOST
8. CROP ROTATION
9. GRAZING AND OVER GRAZING
10. IRRIGATION AND DRAINAGE
11. IRRIGATION SYSTEMS
12. ORGANIC MANURING
13. FARM YARD MANURE
14. HUMUS
15. COMPOST
16. CROP ROTATION
17. GRAZING AND OVER GRAZING
18. IRRIGATION AND DRAINAGE
19. IRRIGATION SYSTEMS
20. INCUBATORS
21. MILKING MACHINE
22. SIMPLE FARM TOOLS
23. AGRICULTURAL MECHANIZATION
24. THE CONCEPT OF MECHANIZATION
25. PROBLEMS OF MECHANIZATION
26. SURVEYING AND PLANNING OF FARMSTEAD
27. IMPORTANCE OF FARM SURVEY
28. SURVEY EQUIPMENT
29. PRINCIPLES OF FARM OUTLAY
30. SUMMARY OF FARM SURVEYING
31. CROP HUSBANDRY PRACTICES
32. PESTS AND DISEASE OF MAIZE- ZEA MAYS
33. CULTIVATION OF MAIZE CROP
34. OIL PALM
35. USES OF PALM OIL
36. MAINTENANCE OF PALM PLANTATION
37. COCOA
38.
39. PROCESSES IN COCOA CULTIVATION
HOLING AND LINING
40. YAM
41. LAND PREPARATION FOR YAM
42. DEPT OF PLANTING
43. SPACING OF YAM
44. PLANTING DEPT OF YAM
45. STORAGE OF YAM
46. STAKING OF YAM
47. HARVESTING OF YAM
48. COWPEA
JUTE
49. FORAGE CROP AND PASTURE
50. FORAGE GRASSES
51. SILAGE
52. PASTURE
53. TYPES OF PASTURE
COMMON GRASSES AND LEGUMES
54. GRASSES
55. LEGUMES
56. ESTABLISHMENT OF PASTURES
57. 201. FORAGE PRESERVATION
58. HAY SILAGE
59. FORESTRY IMPORTANCE OF FORESTRY 206. FOREST MANAGEMENT FOREST REGULATION DEFORESTATION AFFORESTATION
60. DISEASES AND PESTS OF CROPS








61. MAIZE SMUT
62. RICE BLAST
63. MAIZE RUST
64. LEAF SPOT OF GROUNDNUT
65. COW-PEA MOSAIC
66. COCOA BLACK POD DISEASE
67. COFFEE RUST
68. CASSAVA BACTERIA BLIGHT
69. BLACK ARM BACTERIA BLIGHT OF COTTON
70. TOMATO ROOT KNOT
71. DAMPING-OFF OF TOMATO
72. ONION DOWNY MILDEW
73. STORED PRODUCE MOULD
74. PESTS OF CROPS
75. STEM BORERS
76. ARMY WORM

77. COCOA MIRIDS(CAPSIDS)
78. APHIDS
79. WHITE FLY SEED BUGS
80. CASSAVA CULTIVATION
81. CASSAVA MEALYBUGS
82. VARIEGATED GRASSHOPPER
83. GREEN SPIDER MITE
84. COTTON STAINER
85. COTTON
86. PESTS OF VEGETABLES
87. GRASSHOPPER
88. THRIPS
89. LEAF ROLLER
90. BEAN BEETLE
91. RICE WEEVILS
92. . PROBLEMS WITH PESTS CONTROL
93. CROP IMPROVEMENT
94. PROCESS OF CROP IMPROVEMENT METHODS OF CROP IMPROVEMENT
95. HYBRIDIZATION OF CROPS
96. ANIMAL PRODUCTION
97. THE DIGESTIVE SYSTEM OF ANIMALS
98. THE LARGE AND SMALL INTESTINE
99. RUMINANT ANIMALS
100. THE NERVOUS SYSTEM
101. THE NEURONS
102. A SYNAPSE ACTION IMPULSE REFLEX ACTION VOLUNTARY ACTION
103. THE CENTRAL NERVOUS SYSTEM
104. PERIPHERAL NERVOUS SYSTEM
105. THE REPRODUCTIVE SYSTEM MALE AND FEMALE REPRODUCTIVE SYSTEM
106. REPRODUCTIVE SYSTEM OF BIRDS
107. THE CIRCULATORY SYSTEM
108. THE PULMONARY CIRCULATION
109. THE HEART
110. THE RESPIRATORY SYSTEM
111. THE TRACHEA INSPIRATION THE EXPIRATION THE DIAPHRAGM
112. HEAT PERIODS OESTROUS CYCLE
113. MATING
114. PARTURITION
115. MAMMARY GLAND
116. LACTATION
117. EGG FORMATION IN POULTRY
118. LIVESTOCK MANAGEMENT
119. MANAGEMENT OF GOATS
120. REPRODUCTION IN GOAT
121. POULTRY
122. POULTRY MANAGEMENT
123. BATTERY CAGE SYSTEM
124. INTENSIVE SYSTEM
125. . SEMI-INTENSIVE EXTENSIVE SYSTEM

PROODING AND REARING IN POULTRY
126. POULTRY SANITATION

127. ANIMAL NUTRITION
128. RATION
129. CONCENTRATE
130. ROUGHAGE
131. NUTRIENT SOURCES AND FUNCTIONS
132. CARBOHYDRATES
133. PROTEIN FATS
134. MINERALS
135. VITAMINS
136. FEEDING MECHANISMS IN HOLOZOIC ORGANISMS
137. TYPES OF DIETS
138. FATTENING OR FINISHING DIETS
139. LAYER DIETS
140. BALANCED DIETS
141. LACTATION DIETS
142. MALNUTRITION
143. DISEASE, CAUSES, SYMPTOM CORRECTION
144. RANGE MANAGEMENT AND IMPROVEMENT
145. LIVESTOCK DISEASES
146. VIRAL DISEASES
147. RINDER PESTS
148. NEWCASTLE DISEASE
149. BACTERIA DISEASES
150. ANTHRAX
151. BRUCELLOSIS
152. TUBERCULOSIS
153. FUNGAL DISEASES







154. PROTOZOAN DISEASES
155. TRYPONOSOMIASIS
156. COCCIDIOSIS
157. RED WATER FEVER(PIROPLASMOSIS)
158. ENDO PARASITES
159. TAPE WORM
160. ROUND WORM OF PIGS
161. LIVER FLUKE
162. ECTO PARASITES
163. TICK
164. LICE