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The wrapper model for multiobjective forest monitoring systems

Formally Refereed
Authors: Francis Roesch, Todd A. Schroeder
Year: 2021
Type: Scientific Journal
Station: Southern Research Station
DOI: https://doi.org/10.1093/forsci/fxab004
Source: Forest Science

Abstract

Large multiobjective forest monitoring efforts such as the USDA’s Forest Inventory and Analysis Program and other National Forest Inventory (NFI) systems are usually described to the public in terms of the relationship of their sample designs to the land base of interest. Sometimes the third dimension of time is included in the description of the sample design. Additionally, there is a tendency to favor descriptions that arguably support design-based views of the used estimation systems. The accompanying justification usually relies on an assumption that design-based estimators are “objective,” whereas model-based estimators are “subjective.” This article posits that this argument misses the mark because design-based estimation begins with the assumption that a probability sample exists and that the sample observations have been obtained without error. In most large sampling efforts, it is known that violations of the sample design not only might, but will, occur. Additionally, some objectives in a multiobjective inventory require estimation of attributes of tangentially related populations. Here we unify estimation methods into an overall theoretical framework, or “wrapper” model, that allows for the recognition, acknowledgement, and accounting for nonsampling errors and imperfect sample frames into estimation systems capable of combining all observations available to analysts of these large inventory systems.

Keywords

forestry, inventory, monitoring, estimation, modeling

Citation

Roesch, Francis A; Schroeder, Todd A. 2021. The wrapper model for multiobjective forest monitoring systems. Forest Science. 67(3): 256-264. https://doi.org/10.1093/forsci/fxab004.
Citations
https://www.fs.usda.gov/research/treesearch/62741