Employees’ and line managers’ active involvement in participatory organizational interventions: Examining direct, reversed, and reciprocal effects on well-being

This study examined how employee participation and perceptions of line managers' support during a participatory organizational intervention were related to well‐being over time. Although previous studies suggest that employees' and managers' active involvement in participatory organizational interventions may be related to well‐being, little is known about the temporal aspects, such as at which time during the intervention these factors matter, or possible reciprocal effects. Building on conservation of resources theory, we tested hypotheses concerning direct, reversed, and reciprocal relationships between employee participation and perceptions of line manager support in relation to well‐being. We used a four‐wave panel design consisting of 159 hospital workers. Cross‐lagged analyses showed that perceived line managers' support in the initiation and active phase was related to participation in the active phase. Participation in the initiation and active phase was related to well‐being in the active and sustained phase, respectively. Results also revealed that participation in the initiation phase was related to perceived line managers' support in the active phase, which in turn predicted participation in the active phase, which translated into job satisfaction in the sustained phase supporting reversed and reciprocal effects in the form of resource caravans. Theoretical implications for research and practice are discussed

Effects of Invertebrate Shredders and Leaf Type on Leaf Breakdown in Streams

Color poster with text, images, photographs and graphs.Leaf litter is a vital source of nutrients for stream-dwelling organisms and the rate at which these nutrients are released by decomposition is important to the overall functioning of the stream1. Both microorganisms and aquatic “shedders” (invertebrates that feed on leaves) are important for breaking down leaves that fall into streams, but their relative contributions to leaf breakdown may vary among tree species. We hypothesized 1) that leaves from native trees of oak and maple would decompose more slowly in streams compared to non-native species of buckthorn and black locust2, and 2) amphipod shedders (Fig. 1) would consume more native than non-native leaf biomass because they are adapted to consuming native leaves.University of Wisconsin--Eau Claire Office of Research and Sponsored Program