Category: Uncategorized

Treated parts of crop plant:
Focus spraying to plant parts where pests inhabit.
Rice leaf roller: Spray to upper part of plants; Rice planthopper: Spray to lower part of plants
For thrips: Spray to flowers and withered flowers
Underground pests: broadcast application of CQMa421 granular in the field when ploughing field; and furrow and hole
application before sowing , depends on the distribution of underground pests on various crops.

Recommended volume of pesticide suspension for appication.
The minimum volume of pesiticide suspension for effective spraying to key parts! Tea trees: 60-90 L/667M2 recommended.

Application period: It is good to spray at early stage of pest larvae, and its control index for pest could be 1/5 – 1/3 of that by chemical pesticides.

Application time: when pests attack plants, apply it in cloudy days or in late afternoon, avoiding strong sunshine. Repeated
spraying needed when it heavyly rains within 24 hours after previous application (But no need for repeating spray when drizzling). To kill thrips apply spraying before flowers closed (before 10 a.m.) (Adding a little black sugar in  Metarhizium anisopliae dilution could improve its efficacy to kill thrips)

Application Frequency:
Similarly frequent as chemical pesticides, when pest population grows slowly;
7 days after the 1st application, the 2nd application needed when the pest population grows fast.

Precautions: forbidden to use in silkworm mulberry garden; avoid to use granules in drought soil condition. (Drought soil means its moisture is less than 15%)

Metarhizium anisopliae has different action mechnism from other insecticides, thus it has synergistic interaction with others to improve efficacy.
Resistant pests have resistance to chemical insecticides but lose resistance to fungal insecticdes. In fact, any insect pests hardly have resistance to fungal insecticides.

• Broad Spectrum Insecticide
• Control of Plant Diseases
• Promoting Plant Growth
• Overcoming Pest Resistance to Chemical Pesticides

With the strengthening of people’s awareness of food safety and environmental protection, biological control plays an increasingly important role because of its advantages to environmental ecology and human health and safety.
Lin Chemical is committed to bringing our best agricultural biocontrol inputs to the world.
Your opinions and suggestions will be of great help to our product innovation, so please contact us if you have any questions about our products.

Bacillus subtilis can produce a variety of substances with bacteriostatic and bacteriolytic effects during the growth process, such as subtilisin, organic acids, antibacterial proteins, etc.

These substances can inhibit the growth and reproduction of pathogenic bacteria, and even destroy the bacterial structure and kill pathogenic bacteria.

Therefore, Bacillus subtilis has a good effect on the control of soil diseases such as stubble and root rot.

1. Invest in prevention

Prevention is better than a cure. This is particularly true of fall armyworm, as once it has found itself in a new territory, the only thing countries can do is to control its presence and manage the damage. Countries should set up prevention and preparedness plans while the pest is still absent. Check the guidelines to find the important elements to include in this plan. Investing in prevention saves countries technical and financial resources.

2. Evaluate the risk

Fall armyworm causes annual yield losses worth USD 9.4 billion in Africa alone. Based on estimates from 12 African countries, up to 17.7 million tonnes of maize, enough to feed tens of millions of people, could be lost annually on the continent if this pest is not properly prevented and managed. Fall armyworm feeds on more than 80 crops, including maize, wheat, sorghum, millet, sugarcane and cotton with potentially devastating consequences on food security and livelihoods. To prevent this, countries can conduct a pest risk analysis to determine the pathways by which fall armyworm may enter and strengthen the phytosanitary measures to be taken against it.

FAO and the International Plant Protection Convention have developed prevention, preparedness and response guidelines to help countries minimize the spread of the pest and protect their territories. ©FAO/Lekha Edirisinghe

3. Coordinate and cooperate

Every year, over 180 countries from all over the world come together to adopt international standards for plant health and identify measures to ensure that plants and crops entering a country aren’t carrying pests that are subject to quarantine. Once a country knows it is at particular risk of fall armyworm entering, it should update the status of the pest and the list of commodities subject to any phytosanitary import requirements. This action is crucial to trade plants and agri-food products in a safe manner and to avoid pests being introduced with commodities, vehicles or other means.

Currently, countries in southern Europe, the Near East and North Africa and the Pacific regions are particularly at risk of introduction.

4. Stop fall armyworm at borders

Border officials must be well trained to stop fall armyworm by all possible pathways. Luckily, fall armyworm can be spotted and identified without any special equipment. A hand lens and a close eye are enough to detect this pest, even in its early stages. Border inspectors should check the underside of leaves for eggs and use pheromones traps during inspection. Adult worms can be found in commodities that are transported and chilled; laboratory diagnostics can also confirm specimens found.

As one successful example, through phytosanitary inspections of consignments at entry points, the European Food Safety Authority (EFSA) was able to intercept the fall armyworm on commodities entering Europe. These included sweet or hot peppers, eggplants, asparagus, maize, cut rose flowers and other plant species that are not major fall armyworm hosts. According to EFSA estimates, over a million individual larvae could enter the European Union annually through host commodities.

Border officials must be well trained and prepared to spot and stop fall armyworm. Luckily, it can be seen and identified without any special equipment. ©FAO/Lekha Edirisinghe

5. Let others know about the risk

Communication is critical not only to monitor and manage fall armyworm before and after incursion but also to share information and best practices that may help countries take appropriate actions against the pest. Developing pest risk communication strategies and stakeholder awareness programmes is essential to help farmers, growers and the industry in general get ready in case of a fall armyworm introduction. Government agencies and plant protection organizations can provide technical advice on how to identify fall armyworm and the way to report its presence to national authorities.

For example, the plant protection service of Lombardia, Italy has launched a mobile application to engage citizens and professionals together in pest prevention and rapid alert. Through the FitoDetective app, people can learn more about pests, including fall armyworm, and send reports, which will be verified by local phytosanitary inspectors.

Preventing the spread of fall armyworm and other harmful pests to new areas is a global task. By implementing the FAO/IPPC guidelines on fall armyworm prevention, preparedness and response, countries can make a collective effort to minimize food and livelihood losses and protect plant health around the world.

—NPV series, Mamestra brassicae NPV and Helicoverpa armigera NPV

—Paecilomyces lilacinus to kill nematodes

—Tea Saponin using as Molluscicide

—Metarhizium anisopliae, Beauveria bassiana and Celangulin as insecticides

—Trichoderma harzianum and Bacillus subtilis as fungicides

—γ-PGA & Chitosan/Chitosan Oligosaccharide for promoting rooting, germination and growth.

Life form: Bacterium

Origin: Asia and Africa 

Distribution: Varies, depending on the species

Features: Yellowing, blotchy mottling and unseasonal leaf  flushing, leaf drop, dieback of branches .

Pathways: Imported plant propagative material, infected insects

At risk: Commercial citrus varieties & relatives

Huanglongbing (yellow dragon disease), previously known as citrus greening disease, is one of the worst diseases of citrus trees worldwide. It is caused by the bacterial disease Candidatus Liberibacter asiaticus that spreads through the tree canopy, causing decline and then death of the tree.

There is no cure – the only way to stop the disease is to destroy all infected trees and replace them.

The disease huanglongbing originated from China, with its vectors from Asia (Asiatic citrus psyllid) and Africa (African citrus psyllid). Depending on the species, the disease and its vectors can now be found throughout:

• North, Central and South America
• South East Asia, including Indonesia and East Timor
• Papua New Guinea.

The islands of Torres Strait provide a potential pathway for the movement of serious pests into Australia, such as huanglongbing and the Asian citrus psyllid, present in countries to our north.

How to identify Huanglongbing (Candidatus Liberibacter asiaticus)

Everyone needs to keep an eye out for symptoms of huanglongbing.

Huanglongbing is spread by the movement of infected plants and plant propagative material and by sap sucking insects. These insects – the Asiatic citrus psyllid (Diaphorina citri) and African citrus psyllid (Trioza erytreae) – are not present in Australia and are of major concern due to their ability to spread huanglongbing.

• Adults of the Asiatic citrus psyllid are 3-4 millimeters long with brown markings on the wings. When feeding on the veins of the young leaves, they adopt a ‘head-down, tail-up’ position.
• Juvenile psyllids are yellow and commonly found feeding on young, soft shoots.

The African citrus psyllid is similar but larger with a light brown-grey body and black head, and large transparent forewings.

Psyllids

Huanglongbing causes yellowing of citrus plant leaves and in some instances deformed, sour and bitter fruit.

• Symptoms on leaves are subtle and hard to pick but one key sign is a blotchy yellowing that is not symmetrical or mirrored on both sides of the leaf.
• Later, new young leaves are small, upright and yellow, with green bands around the veins.

In well-managed orchards, a yellowing that spreads slowly over the tree and through an orchard is an easily seen sign. The spreading yellowing effect can be especially hard to see in neglected backyard citrus trees growing in poor soils.

Infected trees have a blotchy yellowing that is not symmetrical or mirrored on both sides of the leaf Source: DAWR

Fruit from infected trees can be misshapen or lopsided, and when cut lengthwise, the arrangement of internal tissues may be irregular Source: DAWR