Temperature, season, and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming

Table 4 MANOVA results using a generalized linear model for the main and interaction effects of big island, altitude, and temperature on PPL, HRs, and ROs between wet (2017) and dry (2018) season Ae. aegypti across all Philippine sites

Sources of variation	Pillai's trace	F	Hypothesis df	Error df	P-value
Main effects
Season	0.959	971.809	3.000	124.0	< 0.001
Big island	0.380	9.781	6.000	250.0	< 0.001
Altitude	0.010	0.430	3.000	124.0	0.732
Temperature	0.993	41.103	6.000	250.0	< 0.001
Interaction effects
Season × big island	0.179	4.086	6.000	250.0	0.001
Season × altitude	0.004	0.161	3.000	124.0	0.922
Season × temperature	0.888	33.276	6.000	250.0	< 0.001
Big island × altitude	0.042	0.885	6.000	250.0	0.506
Big island × temperature	0.685	9.314	12.000	378.0	< 0.001
Altitude × temperature	0.009	0.187	6.000	250.0	0.980
Season × big island × altitude	0.025	0.519	6.000	250.0	0.794
Season × big island × temperature	0.517	6.552	12.000	378.0	< 0.001
Season × altitude × temperature	0.044	0.928	6.000	250.0	0.475
Big island × altitude × temperature	0.194	2.180	12.000	378.0	0.012
Season × big island × altitude × temperature	0.161	1.783	12.000	378.0	0.049

ISSN: 1756-3305