UAV-IQ

Last updated
UAV-IQ
Company typePrivate
Industry Agriculture
Founded2015;9 years ago (2015) in Los Angeles, CA, USA
Headquarters
USA
Key people
ServicesAerial biological pest control
Website uaviq.com

UAV-IQ, an abbreviation for Unmanned Aerial Vehicle Intelligence, is an agricultural technology and services company specializing in farm management services through drone operations. Founded in 2015, UAV-IQ has gained recognition for its innovative approaches to integrated pest management (IPM).

Contents

It pioneered aerial biological pest control (biocontrol) services via drones equipped with specialized systems developed to release beneficial bugs over crops. These beneficial insects and mites are the natural enemies of the pests which damage crops, and can be predators or parasitoids.

Biological Pest Management

Many species of predators and parasitoids are commercially reared and approved by federal and state agencies for release in farms, vineyards, nurseries, and orchards. Several of these species can be released by drones using UAV-IQ's specialized release systems, often in multiple life stages, most commonly as eggs, larvae/juveniles, and/or adults. In addition to these life stages, certain parasitoids are released in their mummified stage, a process in which the parasitoid larvae develop within the body of the host pest, eventually killing it and emerging as mature adults from the host's remains after they are released into the field.

Notable Achievements

Founding and Development

UAV-IQ originated from the Venture Initiation specialization within the UCLA Anderson School of Management's Executive MBA Program. Additionally, UAV-IQ has participated in several competitive accelerators, including Parallel 18, [5] THRIVE AgTech, [6] MassChallenge, [7] and the UCLA Anderson Venture Accelerator [8]

Grant-Funded Research

Conducted in collaboration between UAV-IQ and a research team from Washington State University led by Dr. David James, a study investigated the efficacy of UAV-IQ's drone technology for releasing two beneficial insects obtained from a commercial insectary into Washington wine grape vineyards. The insects included Cryptolaemus beetles, commonly known as mealybug destroyer, and the predatory mite Neoseiulus californicus . Drone releases of both species occurred in mid-June and mid-August. The project, funded by a grant from the Washington State Wine Commission titled 'Using Drones and an Attractant to Improve Biological Control of Mealybugs and Spider Mites in WA Wine Grapes', demonstrated promising potential for drones in integrated pest management within vineyards. [9]

In a continued focus on biological pest control in vineyards, UAV-IQ received another grant from the California Department of Food and Agriculture (CDFA) titled 'Drone-Based Biological Control of the Vine Mealybug in California Vineyards'. This research, initiated in 2023 and expected to conclude in 2025, aims to address the challenges of managing vine mealybug (VMB) through the release of predators and parasitoids as a biological control method. According to the grant's abstract, the project leverages UAV-IQ's operational and technological capabilities to deploy drones equipped with intelligent release systems directly over crops, facilitating the targeted release of beneficial insects and mites. The research focuses on evaluating the effectiveness of predators Cryptolaemus montrouzieri and parasitoids Anagyrus pseudococci released by drones to manage vine mealybug populations, with the overarching goal of refining economically viable treatment protocols. [10]

Related Research Articles

<span class="mw-page-title-main">Biological pest control</span> Controlling pests using other organisms

Biological control or biocontrol is a method of controlling pests, whether pest animals such as insects and mites, weeds, or pathogens affecting animals or plants by using other organisms. It relies on predation, parasitism, herbivory, or other natural mechanisms, but typically also involves an active human management role. It can be an important component of integrated pest management (IPM) programs.

<span class="mw-page-title-main">Pest (organism)</span> Organism harmful to humans/our concerns

A pest is any organism harmful to humans or human concerns. The term is particularly used for creatures that damage crops, livestock, and forestry or cause a nuisance to people, especially in their homes. Humans have modified the environment for their own purposes and are intolerant of other creatures occupying the same space when their activities impact adversely on human objectives. Thus, an elephant is unobjectionable in its natural habitat but a pest when it tramples crops.

<span class="mw-page-title-main">Integrated pest management</span> Approach for economic control of pests

Integrated pest management (IPM), also known as integrated pest control (IPC) is a broad-based approach that integrates both chemical and non-chemical practices for economic control of pests. IPM aims to suppress pest populations below the economic injury level (EIL). The UN's Food and Agriculture Organization defines IPM as "the careful consideration of all available pest control techniques and subsequent integration of appropriate measures that discourage the development of pest populations and keep pesticides and other interventions to levels that are economically justified and reduce or minimize risks to human health and the environment. IPM emphasizes the growth of a healthy crop with the least possible disruption to agro-ecosystems and encourages natural pest control mechanisms." Entomologists and ecologists have urged the adoption of IPM pest control since the 1970s. IPM allows for safer pest control.

<span class="mw-page-title-main">Beneficial insect</span>

Beneficial insects are any of a number of species of insects that perform valued services like pollination and pest control. The concept of beneficial is subjective and only arises in light of desired outcomes from a human perspective. In agriculture, where the goal is to raise selected crops, insects that hinder the production process are classified as pests, while insects that assist production are considered beneficial. In horticulture and gardening, beneficial insects are often considered those that contribute to pest control and native habitat integration.

<span class="mw-page-title-main">Mealybug</span> Family of insects (Pseudococcidae)

Mealybugs are insects in the family Pseudococcidae, unarmored scale insects found in moist, warm habitats. Of the more than 2000 described species, many are considered pests as they feed on plant juices of greenhouse plants, house plants and subtropical trees and also act as a vector for several plant diseases. Some ants live in symbiotic relationships with them, protecting them from predators and feeding off the honeydew which they excrete.

<i>Araucaria cunninghamii</i> Species of pine tree in Australia

Araucaria cunninghamii is a species of Araucaria known as hoop pine. Other less commonly used names include colonial pine, Queensland pine, Dorrigo pine, Moreton Bay pine and Richmond River pine. The scientific name honours the botanist and explorer Allan Cunningham, who collected the first specimens in the 1820s.

<span class="mw-page-title-main">Silverleaf whitefly</span> Species of true bug

The silverleaf whitefly is one of several species of whitefly that are currently important agricultural pests. A review in 2011 concluded that the silverleaf whitefly is actually a species complex containing at least 40 morphologically indistinguishable species.

<i>Trichogramma</i> Genus of parasitic insects

Trichogramma is a genus of minute polyphagous wasps that are endoparasitoids of insect eggs. Trichogramma is one of around 80 genera from the family Trichogrammatidae, with over 200 species worldwide.

In agriculture and gardening, a beneficial organism is any organism that benefits the growing process, including insects, arachnids, other animals, plants, bacteria, fungi, viruses, and nematodes. Benefits include pest control, pollination, and maintenance of soil health. The opposite of beneficial organisms are pests, which are organisms deemed detrimental to the growing process. There are many different types of beneficial organisms as well as beneficial microorganisms. Also, microorganisms have things like salt and sugar in them. Beneficial organisms include but are not limited to: Birds, Bears, Nematodes, Insects, Arachnids, and fungi. The ways that birds and bears are considered beneficial is mainly because they consume seeds from plant and spread them through feces. Birds also prey on certain insects that eat plants and hinder them from growing these insects are known as non beneficial organisms. Nematodes are considered beneficial because they will help compost and provide nutrients for the soil the plants are growing in. Insects and arachnids help the growing process because they prey on non beneficial organisms that consume plants for food. Fungi help the growing process by using long threads of mycelium that can reach very long distances away from the tree or plant and bring water and nutrients back to the tree or plant roots.

Forest integrated pest management or Forest IPM is the practice of monitoring and managing pest and environmental information with pest control methods to prevent pest damage to forests and forest habitats by the most economical means.

<i>Aonidiella aurantii</i> Species of true bug

Aonidiella aurantii or red scale is an armored scale insect and a major pest of citrus. It is thought to be a native of South China but has been widely dispersed by the agency of man through the movement of infected plant material. In the United States it is known as California red scale. It was first found in California between 1868 and 1875, apparently brought there on planting material imported from Australia.

<span class="mw-page-title-main">Sde Eliyahu</span> Religious kibbutz in northern Israel

Sde Eliyahu is a religious kibbutz in northern Israel. Located five kilometres south of Beit She'an, it falls under the jurisdiction of Valley of Springs Regional Council. In 2022 it had a population of 703.

<i>Pseudococcus viburni</i> Species of true bug

Pseudococcus viburni is a close relative of the grape mealybug and a pest of the vineyards around the world.

The International Organization for Biological and Integrated Control (IOBC), is an organization, affiliated with the International Union of Biological Sciences (IUBS), organised to promote and study biological pest control, integrated pest management (IPM) and integrated production.

<span class="mw-page-title-main">Hans Rudolf Herren</span>

Hans Rudolf Herren is a Swiss American entomologist, farmer and development specialist. He was the first Swiss to receive the 1995 World Food Prize and the 2013 Right Livelihood Award for leading a major biological pest management campaign in Africa, successfully fighting the cassava mealybug and averting a major food crisis that could have claimed an estimated 20 million lives.

Phenacoccus manihoti is a mealybug insect species.

<i>Planococcus citri</i> Species of true bug

Planococcus citri, commonly known as the citrus mealybug, is a species of mealybugs native to Asia. It has been introduced to the rest of the world, including Europe, the Americas, and Oceania, as an agricultural pest. It is associated with citrus, but it attacks a wide range of crop plants, ornamental plants, and wild flora.

<span class="mw-page-title-main">Magadi Puttarudriah</span> Indian entomologist (1903–1983)

Magadi Puttarudriah was an Indian entomologist who worked in the Government of Mysore and after 1957 in the Government of Karnataka. He was the first professor of entomology at the University of Agricultural Sciences, Bangalore created in 1964.

<i>Planococcus ficus</i> Species of mealybug

Planococcus ficus, commonly known as the vine mealybug, is a species of mealybug, belonging to the family Pseudococcidae, native to tropical and subtropical regions. The vine mealybug is found in Europe, Northern Africa, Southern Africa, the Americas, and the Middle East. The vine mealybug is invasive to weedy plants in many different regions of the world.

<span class="mw-page-title-main">Grape cultivation in California</span>

The 2020 table grape harvest was worth $2.12 billion while wine grapes brought in $1.7 billion, down 15.3% year-on-year. By weight this was 17% lower versus 2018. The next year, 2021 saw a much better yield. From 829,000 acres (335,000 ha) viniculturists got 6.94 short tons per acre (15.6 t/ha) for a total harvest of 5,755,000 short tons (5,221,000 t). At an average of $909 per short ton ($1,002/t) they were paid $5,229,902,000 for the season. Of that, 4,844,600 short tons (4,394,900 t) were for destined for processing industries and at $835 per short ton ($920/t) that was worth $4,046,382,000. The fresh harvest was 910,400 short tons (825,900 t) and selling at a price of $1,300 per short ton ($1,433/t), this sector was worth $1,183,520,000 for the season.

References

  1. "DPR Celebrates California Leaders in Safer, More-Sustainable Pest Management". www.cdpr.ca.gov. Retrieved 2024-03-01.
  2. Management, UCLA Anderson School of (2023-09-26). "Showcase 2023". UCLA Anderson School of Management. Retrieved 2024-03-01.
  3. "Top 10 Named in Ag Innovation Challenge". American Farm Bureau Federation. Retrieved 2024-03-01.
  4. Food+City Challenge Prize 2018 , retrieved 2024-03-01
  5. "Parallel18 selects 1st group of 38 startups for mentoring". News is My Business. 2016-03-11. Retrieved 2024-03-02.
  6. "THRIVE III Archives". THRIVE. Retrieved 2024-03-02.
  7. "MassChallenge Texas in Austin Announces 2020 Cohort". MassChallenge. Retrieved 2024-03-02.
  8. Management, UCLA Anderson School of (2023-02-28). "Venture Accelerator at UCLA Anderson Announces Its 2023 Cohort". UCLA Anderson School of Management. Retrieved 2024-03-02.
  9. "Hansen: Drones may help improve biocontrol in wine grapes - Good Fruit Grower". www.goodfruit.com. 2023-03-01. Retrieved 2024-04-06.
  10. https://www.ams.usda.gov/sites/default/files/media/SCBGPDescriptionofFunds2022.pdf (Pg. 32)