Environmental drivers inducing habitat expansion and shift of introduced alien trout in the Himalayan ecosystem and management concerns

Abstract

There is a concern of the spread of introduced trout Salmo trutta and Oncorhynchus mykiss which might have potential effects on native fish species in the Himalaya. We present the first assessment of current habitat expansion of introduced trout induced by environmental drivers and posing threats to the local fish diversity. Maximum Entropy (MaxEnt) model was used and overlaid with presence-only data onto bioclimatic and environmental layers to characterize the conditions most suitable for the habitat expansion of trout. Mean AUC value for S. trutta was 0.919 and 0.881 for O. mykiss respectively showing that the MaxEnt model was highly accurate and statistically significant. The precipitation of driest quarter (Bio_17) alone accounted for 71.4% habitat expansion of S. trutta across rivers’ length and 61.1% in the case of O. mykiss. The Jackknife test of different environmental variable particularly Bio_17 and the coldest quarter (Bio_19) depicted their potential role in habitat expansion. The occurrences of trout in the Himalayan streams predicted trade-offs between few environmental variables and habitat expansion. The findings suggested that habitat expansion of trout was induced by identified environmental drivers impacting the array of biological and ecological integrity in the new geographic spaces concerning trout invasion.