E-Book, Englisch, 388 Seiten
Gupta Biological Pathways to Improve Pest Control in Agriculture
1. Auflage 2018
ISBN: 978-3-96067-689-8
Verlag: Diplomica Verlag
Format: PDF
Kopierschutz: 0 - No protection
E-Book, Englisch, 388 Seiten
ISBN: 978-3-96067-689-8
Verlag: Diplomica Verlag
Format: PDF
Kopierschutz: 0 - No protection
India is especially suitable for agricultural products, its vast plains containing alluvial soil with rich natural contents. The major economy of India is based on agricultural products. The green revolution in India brought high hopes for Indian farmers. Several new scientific information helped crop production to grow by leaps and bounds: the more researches, the more intricacies. Further knowledge of pests makes scientists consider several new solutions. The use of chemicals was immediately adopted to decimate the population of pests and, at first, good results were obtained. But later on, harmful effects of the pesticides became known. It was realized later on that the regular use of chemicals in pesticides is extremely dangerous for human health.
Generally, chemical pesticides are used to curb the harmful effects of insects and pests. But the immediate gain of this process has an adverse effect on the environment in the long run. Regular use of chemicals leads to insecticide resistance. Then, biodiversity is distributed by pest resurgence and pesticide residues. So, the immediate gain of one generation creates serious problems for the next generation.
To sustain agriculture towards its natural mode some new solutions are to be traced. The solution to reduce pesticides is present in the preference for biological management. Predators and parasitoids may be used as natural enemies. In order to gain control over the thrips pests by less harmful means for the agricultural crops, more research work needs to be done. Certain other methods have to be explored in favour of the environment, biodiversity and other useful flora and fauna. We need to maintain the tritrophic interactions in which eating relationships between several species may be traced for biological control.
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Text Sample:
Chapter 3.5 Laboratory Bioassays:
The use of laboratory bioassays was also made for the mass production, culturing and rearing of selected samples. Some used bioassays were as followed:
(1) Petri Dishes:
From the selected sites the infected or parasitized eggs and larvae of thrips were collected and put in petri dishes with the help of camel hair brush. After some time, these petri dishes were transferred in BOD incubator for emerging of adult thrips. […].
(2) Glass Vials:
Glass vials with alcohol were used to preserve the different life stages; eggs, larvae,
pupae and adults of thrips. It was also used to collect the life stages of selected natural enemies. These thrips and natural enemies were collected from the different selected sites of District Aligarh of Western Uttar Pradesh. [.].
(3) Binocular Digital Microscope & Camera Lucida:
For the study of biology and taxonomy of selected thrips specimens and their natural enemies we used the Binocular digital Microscope. We also applied the camera Lucida to draw the scratch diagrams of the insect specimens. […].
(4) Rearing Cages & Plexi Glass Containers:
These were made up of wooden cages. These wooden cages used for proper ventilation to thrips. Each cage opened by a sliding lid. A mesh in each cage was also fixed on lid to prevent the other insects. Ventilated plexi glass containers with lids were purchased for rearing of thrips. Culture of thrips was also preserved in the containers for further scientific studies. […].
(5) BOD Incubator (Biological Oxygen Demand):
It is the method in which the amount of dissolve oxygen is needed by aerobic biological organisms against break down of organic material which present in a given sample at appropriate temperature over a specific period of time. BOD Incubator was used for rearing the selected specimens who were collected from selected outfields. […].
(6) Insect collecting boxes:
These were used for the preservation and to maintain our record of selected sample specimens which were collected from the different outfields.
3.6 Methods of Stock Collection:
(1) Pinning of Predator Samples:
This method was used for preserving and handling insects for the taxonomical studies. Pinned insects were stored quite safely. For this, various sizes of entomological pins were purchased and used. […].
Regarding this 2/3 portion of pin was used below the pinned insect and 1/3 above.
In Hymenopterous insect predators were pinned through the centre of mesothorax.
Some small collected insects were pinned by micropins; small sized pins.
(2) Spreading & Positioning by spreading board:
The spreading board or setting board was used for some collected predatory insects. Predatory mites and minute pirate bugs were properly spread on the board under our laboratory conditions. In this process, the antennal was direct and frontal. Abdominal appendages and their ovipositor were directly backward. Wings were spread properly. Hind edge of forewing was at right angle to the body and hind wing appropriately matched with forewing. After this, the wing setting was done by pinning the paper stripes on the spreading board.
(3) Carding Method:
Some collected small insects were placed on a white rectangular card; 5x8 mm or 5x12 mm. below this, card data labelled card was also placed in which we contained some information about the collection of the samples during the research survey. In this manner, information about identification of such insects, name of their host plant, date of collection, name of the collector etc was properly placed. Some small triangular cards were also used for pinning the small insects. […].
3.7 Taxonomic Research Study:
(1) Tools and Techniques:
The evaluation and manipulation of specimens were arranged with the help of fine micropins, mounted with sealing wax on matchsticks. A pair of straight and with apex bent pins was used for taxonomic slide preparation. To accomplish our sample specimen’s simple lifting tool was used and movement was successfully done. It was made of a small loop of fine wire. Alcohols of he dipped specimens were changed in laboratory dishes by using a fine glass pipette. […].
(2) Process for Slide Preparation:
For the taxonomical point of view, our objective was to prepare specimens on the slides with their natural shapes and colour. They were retained in a condition as close as possible to the natural position and living state. On the other hand, the body was clear and the surface details were visible. […].
For Routine Identification: The Routine Identification procedure was rapid and thus relatively inexpensive. The slides were prepared in such media solutions which could keep them intact for years, even though these slides were not permanent. It is a method which may be recommended for all routine identification work. In the present research work, this method was particularly used against small larvae and pupae and for small adults which were pale in colour. The Mounting and preserving steps were taken in the following manner:
1. Removal of the selected specimens from the collected fluid into 70% ethanol.
2. Specimens were reasonably flexible. So, they were attempted to open wings.
3. After that we placed a drop of mountant solution over the specimen thrips and then they were covered with a cover slip of 13mm circle. Specimen thrips were placed in such a way that ventral slide was upper most.
4. When the processed mountant became dry, we labelled them in appropriate manner.
Thrips specimens were mounted on microscopic slides by following method.
From the preservative solution thrips were taken and placed in 10% solution of cold sodium hydroxide. The inter segmental ventral abdominal integument was punctured in order to aid the alkali solution quickly reach the body contents and to make the procedure more efficient and faster.Small Terebrantion insects remained there for 5-15 minutes. This depended on the sample colour of their integument.
After the removal of specimens from that caustic solution, they were placed in a solution of acetic alcohol (50% ethanol, 4 parts glacial acetic acid, 1 part) and there they were allowed to remain for at least 12 hours.
In this manner, specimens were transferred to 70% alcohol in order to remove the acetic acid contents from the specimens. The wings, legs and antennae were arranged in a systematic manner. Then, the processed specimens were placed in a „syracuse” watch glass in 95% alcohol and weighted down with a piece of cover glass. In this manner, specimens were allowed to harden at least over-night.
We arranged three small round bottomed porcelain dishes which were about 2.5 inches in diameters for the purpose of keeping the processed specimens intact.
The first bottomed porcelain dish, contained 95% ethanol.
The second dish contained half 95% ethanol and half amount of xylene.
In the third porcelain dish we contained pure xylene.
These specimens were left in dish first for at least 10 minutes and then transferred to second dishe for 10 minutes.
In the process of mounting use the fine camel hair brush was used to avoid damage on the specimens when moved from one dish to another. After one minute, they were placed in the third dish and were allowed to remain for 1-1.5 minutes. It depended on the specimen and our observation.
In that series of mounting, a drop of thick balsam was placed on a slide and specimens were transferred to it. In order to hold the wings and legs in outspread position use of thick balsam was made. Efforts for it were made for proper arrangement of wings, legs, and antennae. This arrangement was necessary because we needed for extensive taxonomical study of thrips specimens during the research.
Suggestion: The cover slip which would be used should be small because large cover slips crush specimens and also need more mountant solution.
3.8 Laboratory Processes:
(1) Maceration: The Process:
The objective of this process in our research was to remove the body contents of sampled specimens. Maceration process was done by soaked specimens in a weak NaOH solution for a appropriate period. The preference of NaOH solution was in favour of less damage to the body surface compared to KOH solution. The treatment of Maceration process was maintained for the period which was necessary for our research programme. The process was charted according to the suggestions and advice of the entomological experts. […].
(2) Dehydration: A Process:
The main purpose of this process is to remove water from specimens. The specimens clearing were improved by massaging each specimen gently with the help of the back of the bent needle. At this point we followed the following steps:
1. Replaced the 60% alcohol with 70% alcohol. It was left for 1 hour.
2. Unmacerated specimens were punctured for speeding up the entry of alcohols. It was the way to spread the insect legs, antennae and wings.
3. Then replaced with 80% alcohol. It was left out for 20 minutes.
4. Replaced with 90% alcohol. It was left for 10 minutes.
5. Replaced and performed with absolute alcohol. It was left for 5 minutes.
6. Some specimens showed the signs of collapsing. Then they were treated with the help of gentle massage and each one was stretched.
(3) Mounting of Thrips:
Mounting was an essential procedure after the collection of insect’s fauna. It was necessary, because, if the collected insects were not mounted immediately, they could become hard.
Before the procedure of Mounting, we relaxed such sampled insects. Relaxation was done in a wide mouth airtight jar with moist sand. Blotting paper was spread as a cover over the mouth of the jar.
Thrips were placed in a solution prepared with alcohol (10 parts); glycerine (1 part) and 1 part of acetic acid mixture. It helped distend the bodies of the most of the thrips. In this manner their body parts keep supplied. Such prepared specimens were stored until they could be mounted on microscopic slides. Stored specimens were kept in the dark and preferably at temperature well below 00C to prevent the loss of their integument colour.
3.9 Research Methodology for Cultivation of Chilli Plants:
Before the cultivation of sampled chilli plants we prepared the soil with natural minerals and without any use of pesticides so that the growth of all chilli seedlings picked up from different areas could be seen in healthy environment. The Net House was naturally ventilated and climatically controlled. It was made free from weeds and grass at regular intervals so that the necessary minerals for the growth of chilli plants might not be wasted. In this manner, temperature, humidity, light and intensity of soil media with proper irrigation were kept suitable for the growth of the chilli plants.
In order to facilitate our research objectives, and to obtain the pure yield production of chilli, Capsicum annuum under established experimental net house conditions, chilli seedlings transplanted in sets of microplot. In total, seven experimental net houses were prepared for our controlled experiments. We collected certain sample plants from different nurseries and transplanted then in the experimental microplots in order to find out results over damage on chilli plants with the help of our biological experiments.
Each nethouse was in size of 3x2 m with 4.5 ft height of the net. Chilli plants (Capsicum annuum) were transplanted on first week of January 2015 and first week of July in all micro-plots of the net house respectively. However, the cultivation of sampled plants arranged in a systematic linear fashion. Each plant was separated from the other at the distance of about 40-50 centimetres. The distance was maintained from row-to-row and plant-to-plant.
Note: Seedling plants were purchased from Krishna Nursery and Dev Nursery at G.T. Road, Aligarh. […].
3.10 Biological Controlled Experiments of Thrips Under Net:
House Conditions:
The evaluation of our research was done by the process of rearing. Biological controlled experiments were done under seven net house of 21 microplots. These microplots were covered by nylon net. Each biological treatment was replicated at three times with the help of selected predators and parasitoids. Each experiment was performed till the population of thrips reached at Economic Threshold Level (ETL). In this manner, we calculated the mortality in the experimental units.
In our experiments, the possibilities of use the predator; Amblyseius cucumeris and Macrotracheliella nigra and the parasitoids, Thripobius semiluteus and Ceranisus menes for the biological management of thrips on chill plants under net house condtions.
