The mechanisms that guide Th2 cell differentiation in barrier tissues are unclear. Using temporal, spatial and single cell transcriptomic tracking of house dust mite (HDM) specific T cells, we describe the molecular pathways driving allergen specific Th2 cells. Differentiation and migration of lung allergen-specific Th2 cells requires early expression of the transcriptional repressor Blimp-1. Loss of Blimp-1 during priming in the lymph node ablated the formation of Th2 cells that migrate to the lung, indicating early Blimp-1 promotes the population of Th2 cells with migratory capability. Blimp-1 occurs in a subset of lymph node CD4 T cells that requires IL-10 from allergen-specific T cells. Furthermore, IL-2/STAT5 signals are essential for both Blimp-1 and GATA3 upregulation through repression of Bcl6 and Bach2 in the lymph node. Spatial microniches of IL-2 in the lymph node identified by the latent factor discovery method SLIDE discriminate and support the earliest Blimp-1+ migratory Th2 cells, demonstrating that lymph node localization is a primary driver of Th2 initiation. Our findings illuminate the molecular pathways for inhaled allergens to promote Th2 cells and identify an early requirement for IL-2 mediated spatial microniches that synergize with allergen-driven IL-10 from responding T cells to drive allergic asthma