An ultraviolet aerodynamic particle sizer (UV-APS) was continuously operated for the first time during two seasons to sample the contrasting winds during monsoon and winter to characterize the properties of fluorescent biological aerosol particles (FBAPs), at a high-Altitude site in India. Averaged over the entire monsoon campaign (1 June-21 August 2014), the arithmetic mean number and mass concentrations of coarse-mode (>ĝ€1ĝ€μm) FBAPs were 0.02ĝ€cmĝ'3 and 0.24ĝ€μgĝ€mĝ'3, respectively, which corresponded to ĝ1/4 ĝ€2 and 6ĝ€% of total aerosol loading, respectively. Average FBAP number size distribution exhibited a peak at ĝ1/4 ĝ€3ĝ€μm, which is attributed to the fungal spores, as supported by scanning electron microscope (SEM) images, and these results are consistent with previous studies made for FBAPs. During 11 weeks of measurements the variability of the total coarse-mode particle number (TAP) concentration was high compared to that observed in FBAP number concentrations. The TAP and FBAP number concentrations measured at this site were strongly dependent on changes in wind direction and rainfall. During periods of westerly/southwesterly winds with heavy persistent rainfall, the TAP and FBAP concentrations exhibited very low values (1.3 and 0.005ĝ€cmĝ'3, respectively) with no significant diurnal variations, whereas during periods of northerly winds with scattered rainfall FBAPs exhibited relatively high concentration values (0.05ĝ€cmĝ'3) with pronounced diurnal variations, which were strongly coupled with diurnal variations in meteorological parameters. The campaign-Averaged FBAP number concentrations were shown to correlate with daily patterns of meteorological parameters and were positively correlated with relative humidity (RH; R2ĝ€ Combining double low line ĝ€0.58) and negatively with temperature (R2ĝ€ Combining double low line ĝ€0.60) and wind speed (R2ĝ€ Combining double low line ĝ€0.60). We did not observe any significant positive correlation with precipitation as reported by previous researchers from selected areas. These measurement results confirm the fact that the ratio of PBAPs to TAP is strongly dependent on particle size and location and thus may constitute a significant proportion of total aerosol particles. © Author(s) 2016.