The authors developed multivariate multilevel models to identify

The authors developed multivariate multilevel models to identify nursing home and resident characteristics that were significantly associated with the data quality of multiple MDS measures of nursing home quality. The outcomes were coding differences between nursing home staff and study nurses. Resident characteristics explained little of the

variation in coding differences among facilities, while facilities characteristics explained 4% to 20% of the variation and state location further explained 13% to 34% of the variation. A generalized effect of nursing home state location tended to be consistent across measures. States that overidentified problems also tended to have worse quality indicators and vice versa. Comparisons of MDS-based this website quality indicators reflect differences in assessment practices at least as much as true quality differences. Efforts to standardize assessment practices across states are needed. (Am J Med Qual 2009;24:229-240)”
“Maintaining food production while sustaining productive selleck products ecosystems is among the central challenges of our time, yet, it has been for

millennia. Ancient clam gardens, intertidal rock-walled terraces constructed by humans during the late Holocene, are thought to have improved the growing conditions for clams. We tested this hypothesis by comparing the beach slope, intertidal height, and biomass and density MK-2206 of bivalves at replicate clam garden and non-walled clam beaches in British Columbia, Canada.

We also quantified the variation in growth and survival rates of littleneck clams (Leukoma staminea) we experimentally transplanted across these two beach types. We found that clam gardens had significantly shallower slopes than non-walled beaches and greater densities of L. staminea and Saxidomus giganteus, particularly at smaller size classes. Overall, clam gardens contained 4 times as many butter clams and over twice as many littleneck clams relative to non-walled beaches. As predicted, this relationship varied as a function of intertidal height, whereby clam density and biomass tended to be greater in clam gardens compared to non-walled beaches at relatively higher intertidal heights. Transplanted juvenile L. staminea grew 1.7 times faster and smaller size classes were more likely to survive in clam gardens than non-walled beaches, specifically at the top and bottom of beaches. Consequently, we provide strong evidence that ancient clam gardens likely increased clam productivity by altering the slope of soft-sediment beaches, expanding optimal intertidal clam habitat, thereby enhancing growing conditions for clams. These results reveal how ancient shellfish aquaculture practices may have supported food security strategies in the past and provide insight into tools for the conservation, management, and governance of intertidal seascapes today.

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