Design-Based Inference for Spatial Experiments under Unknown Interference

We consider design-based causal inference in settings where randomized treatments have effects that bleed out into space in complex ways that overlap and in violation of the standard "no interference" assumption for many causal inference methods. We define a spatial "average marginalized effect," which characterizes how, in expectation, units of observation that are a specified distance from an intervention node are affected by treatment at that node, averaging over effects emanating from other intervention nodes. We establish conditions for non-parametric identification under unknown interference, asymptotic distributions of estimators, and recovery of structural effects. We propose methods for both sample-theoretic and permutation-based inference. We provide illustrations using randomized field experiments on forest conservation and health.