Shabanipoor, Mehdi, Kamali, Maryam, Raz, Abbasali (2025). Canonical Correlation of Physiological Traits and Growth Parameters of Two Biotypes of Anopheles stephensi: intermediate and mysorensis. , 28(1), 71-76.
Mehdi Shabanipoor; Maryam Kamali; Abbasali Raz. "Canonical Correlation of Physiological Traits and Growth Parameters of Two Biotypes of Anopheles stephensi: intermediate and mysorensis". , 28, 1, 2025, 71-76.
Shabanipoor, Mehdi, Kamali, Maryam, Raz, Abbasali (2025). 'Canonical Correlation of Physiological Traits and Growth Parameters of Two Biotypes of Anopheles stephensi: intermediate and mysorensis', , 28(1), pp. 71-76.
Shabanipoor, Mehdi, Kamali, Maryam, Raz, Abbasali Canonical Correlation of Physiological Traits and Growth Parameters of Two Biotypes of Anopheles stephensi: intermediate and mysorensis. , 2025; 28(1): 71-76.

Canonical Correlation of Physiological Traits and Growth Parameters of Two Biotypes of Anopheles stephensi: intermediate and mysorensis

Pathobiology Reserach
Article 7, Volume 28, Issue 1, 2025, Pages 71-76    PDF (519.38 K)
Document Type: Original Research
Authors
Mehdi Shabanipoor1; Maryam Kamali* 1; Abbasali Raz2
1Department of Medical Entomology, Faculty of Medical Sciences, Tarbiat Modares University, Tehran, Iran
2Malaria and Vector Research Group, Biotechnology Research Center, Pasteur Institute of Iran, Tehran, Iran
Abstract
Introduction: Malaria, transmitted by Anopheles mosquitoes, remains a significant public health concern. The aim of this study is to evaluate the canonical correlation between physiological traits and growth parameters of two Anopheles stephensi biotypes: intermediate and mysorensis.

Methods: A total of 25 males and 25 females were reared under controlled laboratory conditions (27 ± 2°C, 75 ± 5% relative humidity, 12:12 light-dark cycle), and parameters such as egg lifespan, larval stages, pupal duration, and adult longevity were examined. Growth parameters, including the finite rate of population increase, life expectancy, net reproductive rate, and average generation time, were analyzed separately.

Results: Canonical correlation analysis revealed that only the first canonical variable was significant, explaining 87.24% of the data fit. The first canonical variable exhibited the highest cumulative percentage (87.32), canonical square (0.94), and eigenvalue (23.59). Among growth parameters, life expectancy had the highest canonical correlation coefficient (r = 0.942). Significance tests indicated that Wilks' Lambda produced the highest eigenvalues, while other methods yielded Hotelling-Lawley Trace: 0.38, Pillai’s Trace: 1.43, and Roy’s Greatest Root: 37.40.

Conclusion: Findings indicate that growth parameters, such as net reproductive rate and average generation time, are directly correlated. A higher net reproductive rate corresponds with a longer average generation time, leading to an increased intrinsic rate of population growth and life expectancy. These insights into Anopheles stephensi population dynamics may contribute to improved vector control strategies.

Keywords
An. stephensi; Life expectancy; larval duration; canonical variable; Wilks' Lambda
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