The African Psyllid Trioza erytreae Del Guercio (1918) Is Very Sensitive to Low Relative Humidity and High Temperatures

The African citrus psyllid, is one of the two vectors of Huanglongbing, the most serious citrus disease worldwide. The first detection of in the European mainland was on the northwest of the Iberian Peninsula in 2014. Since then, the pest has spread throughout northern Spain (Galicia, Asturias, Cant...

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Bibliographic Details
Published in:Insects (Basel, Switzerland) Switzerland), 2024-01, Vol.15 (1), p.62
Main Authors: Pérez-Otero, Rosa, Pérez-Turco, Raquel, Neto, Joana, Fereres, Alberto
Format: Article
Language:English
Subjects:
African citrus psylla
Agricultural production
Bacteria
Citrus fruits
Climate
climate change
development
Eggs
Fecundity
Fertility
Flowers & plants
Fruits
High temperature
Hot weather
Humid climates
Humidity
Insects
Laboratories
Life cycles
Mortality
Quarantine
Relative humidity
Survival
Temperature
Trioza erytreae
Vectors
Weather
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Summary:The African citrus psyllid, is one of the two vectors of Huanglongbing, the most serious citrus disease worldwide. The first detection of in the European mainland was on the northwest of the Iberian Peninsula in 2014. Since then, the pest has spread throughout northern Spain (Galicia, Asturias, Cantabria, País Vasco) and along the western Atlantic coast of Portugal (from the Douro e Minho region to the Algarve). We conducted a series of laboratory experiments on lemon plants at different temperatures (from 8 to 34 °C) and humidity conditions (from 40 to 90%) to find out the influence of extreme temperatures and relative humidities (RHs) on the mortality, development and reproduction of . Our results show that temperatures above 30 °C and below 10 °C are very detrimental for nymphal development and nymphs were unable to reach the adult stage. Furthermore, eggs were unable to hatch under temperatures above 33 °C and below 8 °C. Adult mortality was highest at 34 °C and killed more than 50% of the population. We also found that relative humidity is crucial for the development and survival of . Nymphs were unable to reach the adult stage at an RH of 90% and 40%. Also, fecundity was significantly reduced at 90 and 40% RH, and fertility was lowest at 40% RH. Nymphal mortality was highest at an RH of 40%, which was the most detrimental humidity among all tested for the survival and development of . Our work concludes that establishment and spread will be maximum in regions with a temperate and humid climate, being rare in regions where dry and hot weather conditions predominate.
ISSN:2075-4450
2075-4450
DOI:10.3390/insects15010062