The data collection is drawn from a diverse array of crop experimental trials, incorporating numerous variables associated with strategies for managing invertebrate pests. Notable components of the data include monitoring insecticide resistance in Helicoverpa armigera and implementing resistance management measures. The selection of experimental trials was driven by industry demands and inquiries during the project timeframe. These trials include comparative analyses of various sampling methodologies, the development of novel sampling recommendations, assessments of the relative effectiveness of different active ingredients, examinations of diverse application methods, and the quantification of damage caused by specific pests on particular crops at varying stages of crop and pest maturity. The study designs embraced a comprehensive range of treatment factors, encompassing aspects like diverse count/sampling methodologies (for instance, comparing beatsheet versus sweep net techniques in wheat) and the creation of innovative counting/sampling approaches. The exploration extends to variables such as temperature, active ingredients, biological control strategies, application concentration, and methods (like seed dressing or in-furrow spray). Furthermore, the study delves into factors like application timing based on invertebrate instar stage and the assessment of residual efficacy. The research also investigates specific target invertebrate species (such as Creontiades, Helicoverpa, Etiella, Zygrita, Nysius, Piezodorus, Stenodiplosis, Coccinella), a diverse array of host crops (including wheat, barley, chickpeas, faba beans, soybeans, mung beans, pigeon pea), the growth and maturity stages of crops, crop row spacing, predation rates, as well as distinct timeframes after treatment and sowing. Within the designs, an inclusive set of variables and measurements were recorded. This includes evaluations of invertebrate-related factors such as invertebrate density (measured through counts), invertebrate mortality (also quantified through counts), larval size, and feeding duration (measured in time units). Additionally, the research encompasses the evaluation of crop-specific consequences, which involves assessing the extent of crop damage and the resulting crop yield outcomes.