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Invasive Pest and Diseases in Indian Agriculture: Management and Case Studies

Manjot Kaur Muskan Bhullar* Ramneek Kaur
Published in Chemical and Biomolecular Engineering (Volume 10, Issue 2)
Received: 11 June 2025     Accepted: 26 June 2025     Published: 13 September 2025
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Abstract

Alien invasive insect pests pose a significant threat globally, impacting food security, disrupting ecosystem functions, endangering human health, and causing severe economic losses. In the era of globalization and liberalized trade policies, their introduction has become increasingly inevitable. India, in particular, has witnessed a sharp rise in such incursions from around 10 invasive insect pests recorded over a century (1889-1989) to more than 15 new entries in just the last decade (2013-2023). These pests, once established, often escape natural enemies such as predators, parasitoids, and pathogens in their new environments, leading to widespread infestations and crop damage when timely management measures are lacking. Despite the presence of a regulatory framework, the frequent invasion of alien pests remains a challenge, especially given India’s extensive and porous borders with neighboring countries. Invasive pests such as the Cassava Mealybug, Fall Armyworm, Rugose Spiraling Whitefly, South American Tomato Pinworm, Papaya Mealybug, Coconut Eriophyid Mite, Eucalyptus Gall Wasp, Erythrina Gall Wasp, Coffee Berry Borer, Serpentine Leaf Miner, and others have caused substantial damage across various crops. Recently, new pest alerts have been issued for the Apple Leaf Blotch Miner (Leucoptera malifoliella) in Jammu & Kashmir and the Mango Soft Scale (Fistulococcus pokfulamensis) in Karnataka. India as an agrarian nation with diverse agro-climatic zones and crop varieties, the risk of invasive pest establishment remains high. This paper provides a critical review of the current status of invasive insect pests in India, examines the pathways of their entry, assesses the threats they pose to agriculture, evaluates existing regulatory mechanisms, and suggests strategic directions for effective management and prevention of future invasions.

Published in Chemical and Biomolecular Engineering (Volume 10, Issue 2)
DOI 10.11648/j.cbe.20251002.13
Page(s) 29-36
Creative Commons

This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited.

Copyright

Copyright © The Author(s), 2025. Published by Science Publishing Group
Previous article
Keywords

Invasive Species, Pests, Diseases, Biological Control, Integrated Pest Management (IPM)

1. Introduction
An alien species is one that humans have purposefully or unintentionally brought from one geographic area to another, or by human agency for societal or personal gain. It is also referred to as exotic, imported, non-indigenous, or non-native. When alien species become regionally dominant, they overrun natural communities and become a severe danger to native biodiversity. These species are known as invasive alien species
[1]
. Invasive alien species, which include introduced plants, animals, and creatures, pose the second greatest threat to biodiversity and habitat degradation. Their establishment and spread endanger ecosystems, habitats, and other species
[2]
. The topmost 100 worst IAS in the world are made up of fish, birds, reptiles, plants, microbes, macro fungi, amphibians, and fish
[3]
. It seems that certain characteristics, or certain combinations of characteristics, enable invasive species to outcompete native species. In India, systematic recording of invasive insect species is starting to take place
[4]
. The Zoological Survey of India (ZSI) has listed 157 alien invasive animal species for the first time. India contributes over 8% of the world's species variety while making up only 2.4% of the planet's land area
[5]
. Viruses, infections, plants, and animal pests are examples of exotic invasive species that pose a major danger to the ecological and economic health of every habitat and region on Earth
[6]
. It is possible for alien creatures to accidentally or purposefully find their way into a new area. Travel across nations and continents as well as the importation of different goods like wood, cereals, fodder, etc., all contribute to accidental introductions
[7]
. Every invasive species has some biological characteristics that help them succeed in establishing a new home. Compared to native plants, invasive alien plants have greater competitive resource capture and utilization capacities, produce a high number of easily dispersible, light-weight seeds, and develop quickly
[8]
. Typically, invasive species are robust, long-lived, ravenous, fiercely widespread, incredibly durable, have a broad food, can travel great distances, and spawn copiously
[9]
.
Figure 1. Depicts Occurrence of the 15 worst Invasive Insect Species. Records were compiled from Global Biodiversity Information Facility, Global Invasive Species Database, and CABI Digital Library
[10]
.
2. Steps of Invasion
The biological steps of colonization or invasion by alien organisms can be divided into four steps; Introduction, Establishment, Spread and Naturalization.
a) Introduction: Some non-native species are imported intentionally for economic purposes, but many others arrive unintentionally in shipping containers, lurking under the bark of log imports, infesting fruits carried by tourists, swimming in ballast water exchanged in a harbor, quietly reproducing in the intestines or bloodstream of an unsuspecting travellers, or hidden in soil of imported ornamental plants. Most are harmless or fail to become established, but some proliferate and spread in ways that endanger native species in the invaded ecosystem, undermine agriculture, threaten public health, or create other unwanted and often irreversible disruptions. Six broad mechanisms by which alien species might be introduced to a region have been described
[11]
deliberate release (e.g. game animals, sport fishes, pets); escape from captivity (e.g. ornamental garden plants, pets); contaminants of commodities (e.g. weed seeds, pest insects, microbial pathogens); stowaways on transport vectors (e.g. marine organisms fouling ship hulls or in ballast water, latent endophytic pathogens in plants); anthropogenic corridors (such as through the Suez and Panama Canals); or unaided spread from other invaded regions. The initiation of the process through the introduction of invasives can occur through: (i) Long distance migrations or movements (e.g. the brown planthopper, Nilaparvata lugens in rice) (ii) Transportation Ex. Parthenium along with wheat grains in India (iii) Human activities (iv) Aquarium plants e.g., water fern, water lettuce.
b) Establishment: Once the invaded species has overcome the environmental barriers in the introduced area then it establishes itself and at this stage populations are sufficiently large and the probability of local extinction due to environmental factors becomes negligible.
c) Spreading: The spreading of a species into areas away from initial sites of introduction requires that the introduced species have also to overcome barriers to dispersal within the new region which can cope with the abiotic environment and biota in the area.
d) Naturalization: Naturalization starts when abiotic and biotic barriers to survival rate are surmounted and when various barriers to regular reproduction are overcome.
3. Growing of Invasive Pest Numbers in India
The invasive pest species pose a substantial threat to biodiversity due to various factors:
1) Expansion of geographic range, climate change and its impact on insects-pest: The insect-pests are expected to extend their geographic range from tropics and subtropics to temperate regions, which will lead to increased abundance of tropical insect species and sudden outbreaks of insect-pests. Climate change also influences the ecology and biology of insect pests and diseases. Increased temperature causes migration of insect species towards higher latitudes, while in the tropics higher temperatures might adversely affect specific pest species. Likely impacts of any change in climate on population of pests are manifold
[12]
. Temperature is probably the single most important environmental factor influencing insect behavior, distribution, survival and reproduction. It has been estimated that with a 2°C temperature increase, insects might experience one to five additional life cycles per season. Helicoverpa armigera is continuously expanding in Northern India on cotton, pulses and vegetables
[13]
.
2) Physiological and ecological impact: some species which are able to adapt to the warmer climate may become major pests. Differential response to various environmental factor would disrupt synchronization in phenology between insects and host plants or natural enemies
[14]
.
3) Changes in pest herbivory: More sap-feeding insects are expected to emerge as major pests when plants are grown in elevated levels of carbon dioxide
[15]
. Lower foliar nitrogen content due to increased CO2 causes an increase in food consumption by the herbivores up to 40%, increased overwintering survival. The temperature in India is expected to increase by 1-5°C within next 100 years, accelerated metabolic rates at higher temperatures may shorten the duration of insect diapause due to faster depletion of stored nutrient resources
[16]
.
4) Increase in number of generations: With every 2°C rise in temperature, multivoltine insects may have 1-5 additional generations.
5) Breakdown of host plant resistance: Severe yield loss in sorghum may occur in India due to breakdown of resistance against midge Stenodiplosis sorghicola and spotted stem borer Chilo partellus
[17]
.
4. Invasive Pests in India
India has experienced the introduction of several invasive insect pests that have caused significant agricultural and horticultural damage. One such pest is the Woolly Apple Aphid (Eriosoma lanigerum), introduced in the 18th century from China via imported apple rootstock. It was first recorded in Conoor (1889) and became a major pest by 1920
[18]
. This pest attacks apples and pears, sucking sap and damaging roots. Biological control through the parasitoid Aphelinus mali successfully reduced its population by 98% in Kullu Valley, though attempts in other regions failed. Another serious pest, San Jose Scale (Quadraspidiotus perniciosus), native to China, reached India in 1911 and became a major pest by 1933. It affects a variety of temperate trees including Populus and Morus species. Infestation leads to bark cracking and yield loss. Natural enemies like Encarsia perniciosi and Chilocorus bijugus were found effective
[19]
. The Cottony Cushion Scale (Icerya purchasi), introduced from Australia in 1921, caused damage to Acacia species and was effectively controlled by the predator Rodolia cardinalis. The Potato Tuber Moth (Phthorimaea operculella), introduced with Italian potato imports in 1937, affects stored potatoes and solanaceous crops. It mines leaves and tubers, completing up to 12 generations per year
[20]
. Parasitoids like Chelonus blackburni and Copidosoma koehleri help in management.
The Diamond-Back Moth (Plutella xylostella), first recorded in India by Fletcher in 1914, is a serious pest of crucifers. Early instars mine the underside of leaves, and later instars create holes. It shows resistance to cypermethrin and fenvalerate. In Tamil Nadu, Brachymeria excarinata and Tetrastichus sokolowskii showed 59.9% and 18.2% parasitism respectively
[21]
, while in Bangalore A. plutellae was effective
[22]
. The Silverleaf Whitefly (Bemisia tabaci), introduced in 1999 in Karnataka, is polyphagous and transmits Tomato Yellow Leaf Curl Virus (ToLCV). It causes damage by sap removal and development of sooty mould. Effective natural enemies include Encarsia formosa, Chrysoperla carnea, and Delphastus pusillus. The Papaya Mealybug (Paracoccus marginatus), noticed in Coimbatore in 2007, became a major pest by 2009 affecting crops like papaya, cotton, and guava. It produces honeydew leading to sooty mould, and was successfully managed by importing Acerophagus papayae from the USA.
The Fall Armyworm (Spodoptera frugiperda), a polyphagous pest affecting maize and over 100 plant species, was reported from Karnataka in 2018
[23]
. It causes whorl feeding, leaf damage, and dead heart symptoms. Natural enemies such as Telenomus sp. and Trichogramma sp. are helpful in its control. The Erythrina Gall Wasp (Quadrastichus erythrinae), noticed in Kerala and Karnataka around 2005-06, caused major damage to Erythrina trees used in black pepper plantations, with Aprostocetus exertus identified as an effective biocontrol agent
[24]
. Finally, the Tomato Leaf Miner (Tuta absoluta), native to Peru, was recorded in Pune in 2014
[25]
. It damages tomato by mining in leaves and fruits, with Nesidiocoris tenuis and Neochrysocharis formosa providing control
[26]
. These examples highlight the threat posed by invasive insect pests and the importance of classical biological control in India’s integrated pest management strategies.
Table 1. Shows list of Important invasive pests of India.

S. No.

Pest Name

Origin

Host(s)

Damage

Biological Management

1

Woolly apple aphid (Eriosoma lanigerum)

China (via rootstock)

Apple, pear

Suck sap, root swellings, plant decline

Parasitoid: Aphelinus mali; Predators: Coccinella septempunctata, Exochomus uropygialis, etc.

2

San Jose scale (Quadraspidiotus perniciosus)

China

Poplar, willow, mulberry, others

Sapsucking on stems/fruits, bark cracks, growth cessation

Parasitoids: Aphytis sp., Encarsia perniciosi; Predator: Chilocorus bijugus

3

Cottony cushion scale (Icerya purchasi)

Australia

Acacia spp., ornamentals

Sap feeding, major damage in Nilgiri hills

Predator: Rodolia cardinalis

4

Potato tuber moth (Phthorimaea operculella)

Italy

Potato, tobacco, tomato, brinjal

Leaf mines, tuber entry, multiple generations

Parasitoids: Chelonus blackburni, Copidosoma koehleri

7

Papaya mealybug (Paracoccus marginatus)

Noted in Coimbatore (2007)

Papaya, cotton, guava, many crops

Honeydew & sooty mould on leaves/fruits

Parasitoid: Acerophagus papayae (from USA)

8

Fall armyworm (Spodoptera frugiperda)

India (Karnataka, 2018)

>100 spp., mainly maize, sorghum

Whorl feeding, dead heart, tassel damage

Parasitoids: Telenomus sp., Trichogramma sp.

9

Erythrina gall wasp (Quadrastichus erythrinae)

Noted in Kerala (2005)

Coral tree (Erythrina spp.)

Gall formation in petioles, leaves

Parasitoid: Aprostocetus exertus

10

Tomato leaf miner (Tuta absoluta)

Peru (Pune, India in 2014)

Tomato, solanaceous crops

Mines in leaves, buds, fruits

Predator: Nesidiocoris tenuis; Parasitoid: Neochrysocharis formosa
4.1. Invasive Diseases in India
Several plant diseases have historically impacted Indian agriculture, caused significant crop losses and affected livelihoods. One of the earliest recorded is coffee rust (Hemileia vastatrix), first observed in Ceylon in 1868 and in India by 1879 in Karnataka. It remains prevalent in Karnataka, Kerala, and parts of Madhya Pradesh, severely affecting leaves and leading to reduced yields. Management involves destruction of infected foliage and use of resistant varieties like S 238 and S 395, along with Bordeaux mixture sprays. Potato late blight (Phytophthora infestans), historically infamous for the Irish Famine, was reported in India in 1883 in the Nilgiris and Darjeeling. It damages leaves, stems, and tubers, leading to up to 70% yield losses in epidemic years. Recommended control includes fungicide sprays (mancozeb/zineb), tuber handling precautions, and cultivation of resistant varieties like Kufri Naveen and Kufri Moti. Paddy blast (Pyricularia oryzae) has been known since ancient rice cultivation and was first noted in India in 1913. It affects all aboveground parts, causing typical spindle-shaped lesions. Use of resistant varieties (IR-64, CO 47) and systemic fungicides like tricyclazole is effective. Flag smut of wheat (Urocystis tritici) was first seen in Australia and later reported in India in 1918. It affects wheat leaves and stems, causing sori filled with dark spores. Control includes seed treatment with carboxin and use of resistant varieties such as Pusa 44. Potato wart (Synchytrium endobioticum), reported in 1952 in Darjeeling, is a severe tuber disease causing wart-like outgrowths. Though movement restrictions were placed, the disease remains a concern. Resistant cultivars (e.g., Kufri Jyoti) and soil disinfection methods are employed. Bacterial leaf blight of rice (Xanthomonas oryzae pv. oryzae) was first noticed in India in 1951 and became widespread with the introduction of susceptible varieties. Symptoms include leaf lesions and the “Kresek” symptom in seedlings. Management includes sanitation, resistant cultivars (IR 20, TKM), and streptomycin-based sprays. Banana bunchy top virus (BBTV), introduced from Sri Lanka around 1940, causes bunched appearance of leaves and often prevents fruiting. Aphids and infected suckers spread the virus. Control involves removing infected plants and using virus-free suckers. Lastly, potato cyst nematode (Heterodera rostochiensis), detected in India in 1961, causes stunted plants and early senescence. Long crop rotations, resistant varieties (Kufri Swarna), and carbofuran application are effective control measures. These historical outbreaks underline the importance of plant pathology, quarantine, and integrated disease management to sustain agriculture in India.
Table 2. Shows the important invasive diseases of India.

S. No.

Disease (Pathogen)

Origin

Host & Damage

Management

1

Coffee Rust (Hemileia vastatrix)

First reported in India (1879), Karnataka. Common in Karnataka, Kerala, MP.

Host: Coffee. Affects leaves and tender shoots; yellow to brown spots, defoliation, and stunted plants with reduced yield.

Destroy diseased leaves, grow resistant varieties (S 238, S 395), spray Bordeaux mixture (0.5%) seasonally.

2

Potato Late Blight (Phytophthora infestans)

Reported in India (1883) in Nilgiris and Darjeeling.

Host: Potato, Tomato. Leaf and tuber blight, purple-brown lesions, white fungal growth, yield loss up to 70%.

Spray Mancozeb/Zineb (0.2%), use resistant varieties (Kufri Naveen, Kufri Moti), avoid tuber injuries.

3

Paddy Blast (Pyricularia oryzae)

Reported in India (1913); major outbreak in 1919 (Tanjore Delta, TN).

Host: Rice. Attacks all aboveground parts. Spindle-shaped lesions, neck and panicle rot, grain loss.

Use tolerant varieties (IR-64, CO 47), seed treatment, apply tricyclazole.

4

Flag Smut of Wheat (Urocystis tritici)

Reported in India (1918), Layallpur (Punjab).

Host: Wheat. Causes grey-black sori on leaves, leaf twisting, wilting, spore balls.

Seed treatment with carboxin (2g/kg), resistant varieties (Pusa 44, WG 377).

5

Potato Wart (Synchytrium endobioticum)

Reported in India (1952), Darjeeling.

Host: Potato. Causes granular swellings on eyes, turns black, reduces marketability.

Resistant varieties (Kufri Jyoti), soil sterilization (formalin, mercuric chloride).

6

Rice Bacterial Leaf Blight (Xanthomonas oryzae pv. oryzae)

Reported in India (1951), epidemic in 1963 (Bihar).

Host: Rice. Yellow lesions, leaf drying, Kresek symptom in seedlings.

Burn stubbles, grow resistant varieties (IR 20, TKM), apply streptomycin + copper oxychloride.

7

Banana Bunchy Top (BBTV)

Observed in India around 1940 (Kerala).

Host: Banana. Causes leaf streaks, bunching, no fruit, twisted bananas.

Use virus-free suckers, remove infected plants, apply Fernoxone.

8

Potato Cyst Nematode (Heterodera rostochiensis)

Detected in India (1961), Ooty (Tamil Nadu).

Host: Potato. Stunted growth, yellowing, root galls, female cysts on roots.

Crop rotation (3-7 years), resistant varieties (Kufri Swarna), apply carbofuran.
4.2. Management
A. International agreements, legislation, and voluntary self-regulation
Efficient response to biological invasions requires prioritizing measures to prevent the arrival of potentially invasive alien species, the timely management of incursions, and effective management of those already established. Achieving these goals requires implementing mechanisms to regulate the intentional introduction of alien species and identifying pathways and mitigation methods for unintentional arrivals. It also demands enforcing preventive measures and ensuring the timely deployment of protocols for detection and rapid response to deal with new incursions. Protocols are needed to assess the feasibility of eradicating newly established Invasive Alien Species (IAS) and to design cost-effective management of widespread IAS that cause the most severe impacts
[27]
.
B. National biosecurity programs
The term ‘biosecurity’ refers to measures to prevent and manage biological invasions
[28]
. A close correspondence exists between the various stages of the invasion process and different biosecurity activities. For example, ‘border biosecurity’ refers to measures, such as inspection, quarantines (bans on imports), and sanitary treatments (e.g. fumigation) of imported goods at or near the border. Every country operates biosecurity measures to protect natural resources and citizens from invasion-related impacts.
International trade creates important pathways for the accidental movement of alien species, and the trend of increasingly globalized economies has contributed to increased invasion rates
[29]
. To address this problem, the World Trade Organization designated the International Plant Protection Convention of the UN Food and Agriculture Organization as the international standard-setting body for border biosecurity.
The IPPC provides rules by which national plant protection organizations can implement biosecurity practices. The IPPC also sets standards that are harmonized among countries to limit the spread of invasive alien species while promoting free trade. Under IPPC guidelines, each country is able to select a level of predetermined risk when implementing biosecurity practices.
C. Technological advances in management
Established populations of IAS have long been managed to low densities or even eradicated, primarily by three methods mechanical or physical control, chemical control, and biological control
[30]
. Each method has recorded substantial successes as well as failures, but incremental technological advances have improved all three methods and lessened non-target impacts. Significant advances have occasionally allowed successful management or eradication of a much greater range of invasions.
Invasive insects, especially lepidopterans, have long been managed with pheromones, especially through attract-and-kill or mating disruption
[31]
. Similarly, the male-sterilization technique has been widely used to manage or eradicate invasive insect populations
[32]
.
4.3. Surveillance and Monitoring
The importance of early-warning and rapid-response initiatives, and concurrently the need for surveillance to inform such approaches, is widely recognized. Most countries do not implement integrated national invasive alien species surveillance programs.
Figure 2. Depicts Strategies for management of invasive pests.
4.4. Case Studies
The Papaya Mealybug (Paracoccus marginatus), first reported in Coimbatore, Tamil Nadu in 2007, rapidly became a serious invasive pest across India by 2009, damaging over 60 plant species including papaya, mulberry, tapioca, and cotton, with incidence reported in Karnataka by 2010. It causes damage by sucking plant sap, leading to crinkled leaves, sooty mold formation, and photosynthesis reduction. Effective control was achieved through classical biological control using parasitoids such as Acerophagus papayae, Anagyrus loecki, and Pseudleptomastix mexicana, and predators like Cryptolaemus montrouzieri
[33, 34]
. The invasive weed Lantana camara, introduced in India in 1807 as an ornamental plant, has since spread across 13.2 million hectares, affecting forests, pastures, and crop lands, particularly in the Himalayan foothills where it shelters crop-damaging wild boars. It is considered one of the most aggressive invasive plants due to its prolific growth
[16, 35, 36]
. The Potato Wart disease, caused by Synchytrium endobioticum, was introduced into Darjeeling from Denmark in 1953, and despite control measures including soil sterilization and domestic quarantine under the DIP Act (1959), it still persists in parts of West Bengal, causing significant losses by forming soft, warty galls on potato tubers
[37, 38]
.
5. Conclusion
The management of invasive pests in India poses a significant challenge to sustainable agriculture due to their destructive impact on a wide range of crops and the rapidity with which they spread. Effective strategies must focus on early detection, strict quarantine measures, use of biological control agents, and integrated pest management (IPM) practices. Strengthening farmer awareness, enforcing regulatory frameworks, and promoting research on pest biology and eco-friendly control methods are crucial to mitigate the threats posed by these invasive species. Collaborative efforts among government agencies, research institutions, and farming communities are essential to protect crop yields, biodiversity, and national food security.
Abbreviations

IAS

Invasive Alien Species

ToLCV

Tomato Yellow Leaf Curl Virus

ZSI

The Zoological Survey of India

IPM

Integrated Pest Management

IPPC

International Plant Protection Convention
Author Contributions
All authors contributed equally to the conception, preparing and drafting the manuscript. All authors have read and agreed to the published version of the manuscript.
Funding
This review study received no specific financial support.
Data Availability Statement
The original contributions presented in the study are included in the article, further inquiries can be directed to the corresponding authors.
Conflicts of Interest
The authors declare no conflicts of interest.
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    Kaur, M., Bhullar, M., Kaur, R. (2025). Invasive Pest and Diseases in Indian Agriculture: Management and Case Studies. Chemical and Biomolecular Engineering, 10(2), 29-36. https://doi.org/10.11648/j.cbe.20251002.13

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    Kaur, M.; Bhullar, M.; Kaur, R. Invasive Pest and Diseases in Indian Agriculture: Management and Case Studies. Chem. Biomol. Eng. 2025, 10(2), 29-36. doi: 10.11648/j.cbe.20251002.13

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    AMA Style

    Kaur M, Bhullar M, Kaur R. Invasive Pest and Diseases in Indian Agriculture: Management and Case Studies. Chem Biomol Eng. 2025;10(2):29-36. doi: 10.11648/j.cbe.20251002.13

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  • @article{10.11648/j.cbe.20251002.13,
  author = {Manjot Kaur and Muskan Bhullar and Ramneek Kaur},
  title = {Invasive Pest and Diseases in Indian Agriculture: Management and Case Studies
},
  journal = {Chemical and Biomolecular Engineering},
  volume = {10},
  number = {2},
  pages = {29-36},
  doi = {10.11648/j.cbe.20251002.13},
  url = {https://doi.org/10.11648/j.cbe.20251002.13},
  eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.cbe.20251002.13},
  abstract = {Alien invasive insect pests pose a significant threat globally, impacting food security, disrupting ecosystem functions, endangering human health, and causing severe economic losses. In the era of globalization and liberalized trade policies, their introduction has become increasingly inevitable. India, in particular, has witnessed a sharp rise in such incursions from around 10 invasive insect pests recorded over a century (1889-1989) to more than 15 new entries in just the last decade (2013-2023). These pests, once established, often escape natural enemies such as predators, parasitoids, and pathogens in their new environments, leading to widespread infestations and crop damage when timely management measures are lacking. Despite the presence of a regulatory framework, the frequent invasion of alien pests remains a challenge, especially given India’s extensive and porous borders with neighboring countries. Invasive pests such as the Cassava Mealybug, Fall Armyworm, Rugose Spiraling Whitefly, South American Tomato Pinworm, Papaya Mealybug, Coconut Eriophyid Mite, Eucalyptus Gall Wasp, Erythrina Gall Wasp, Coffee Berry Borer, Serpentine Leaf Miner, and others have caused substantial damage across various crops. Recently, new pest alerts have been issued for the Apple Leaf Blotch Miner (Leucoptera malifoliella) in Jammu & Kashmir and the Mango Soft Scale (Fistulococcus pokfulamensis) in Karnataka. India as an agrarian nation with diverse agro-climatic zones and crop varieties, the risk of invasive pest establishment remains high. This paper provides a critical review of the current status of invasive insect pests in India, examines the pathways of their entry, assesses the threats they pose to agriculture, evaluates existing regulatory mechanisms, and suggests strategic directions for effective management and prevention of future invasions.
},
 year = {2025}
}

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  • TY  - JOUR
T1  - Invasive Pest and Diseases in Indian Agriculture: Management and Case Studies

AU  - Manjot Kaur
AU  - Muskan Bhullar
AU  - Ramneek Kaur
Y1  - 2025/09/13
PY  - 2025
N1  - https://doi.org/10.11648/j.cbe.20251002.13
DO  - 10.11648/j.cbe.20251002.13
T2  - Chemical and Biomolecular Engineering
JF  - Chemical and Biomolecular Engineering
JO  - Chemical and Biomolecular Engineering
SP  - 29
EP  - 36
PB  - Science Publishing Group
SN  - 2578-8884
UR  - https://doi.org/10.11648/j.cbe.20251002.13
AB  - Alien invasive insect pests pose a significant threat globally, impacting food security, disrupting ecosystem functions, endangering human health, and causing severe economic losses. In the era of globalization and liberalized trade policies, their introduction has become increasingly inevitable. India, in particular, has witnessed a sharp rise in such incursions from around 10 invasive insect pests recorded over a century (1889-1989) to more than 15 new entries in just the last decade (2013-2023). These pests, once established, often escape natural enemies such as predators, parasitoids, and pathogens in their new environments, leading to widespread infestations and crop damage when timely management measures are lacking. Despite the presence of a regulatory framework, the frequent invasion of alien pests remains a challenge, especially given India’s extensive and porous borders with neighboring countries. Invasive pests such as the Cassava Mealybug, Fall Armyworm, Rugose Spiraling Whitefly, South American Tomato Pinworm, Papaya Mealybug, Coconut Eriophyid Mite, Eucalyptus Gall Wasp, Erythrina Gall Wasp, Coffee Berry Borer, Serpentine Leaf Miner, and others have caused substantial damage across various crops. Recently, new pest alerts have been issued for the Apple Leaf Blotch Miner (Leucoptera malifoliella) in Jammu & Kashmir and the Mango Soft Scale (Fistulococcus pokfulamensis) in Karnataka. India as an agrarian nation with diverse agro-climatic zones and crop varieties, the risk of invasive pest establishment remains high. This paper provides a critical review of the current status of invasive insect pests in India, examines the pathways of their entry, assesses the threats they pose to agriculture, evaluates existing regulatory mechanisms, and suggests strategic directions for effective management and prevention of future invasions.

VL  - 10
IS  - 2
ER  -

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