David R. Legates scite author profile

Procedures that may be used to evaluate the operational performance of a wide spectrum of geophysical models are introduced. Primarily using a complementary set of difference measures, both model accuracy and precision can be meaningfully estimated, regardless of whether the model predictions are manifested as scalars, directions, or vectors. It is additionally suggested that the reliability of the accuracy and precision measures can be determined from bootstrap estimates of confidence and significance. Recommended procedures are illustrated with a comparative evaluation of two models that estimate wind velocity over the South Atlantic Bight.

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Mean seasonal and spatial variability in gauge‐corrected, global precipitation

Legates¹,

Willmott²

1990

Intl Journal of Climatology

1,406

832

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Using traditional land-based gauge measurements and shipboard estimates, a global climatology of mean monthly precipitation has been developed. Data were obtained from ten existing sources, screened for coding errors, and redundant station records were removed. The edited data base contains 24,635 spatially independent terrestrial station records and 2223 oceanic grid-point records. A procedure for correcting gauge-induced biases is presented and used to remove systematic errors caused by wind, wetting on the interior walls of the gauge, and evaporation from the gauge. These 'corrected' monthly precipitation observations were then interpolated to a 0.5" of latitude by 0.5" of longitude grid using a spherically based interpolation procedure. Bias-corrected spatial distributions of the annual mean and intraannual variance are presented along with a harmonic decomposition of the intra-annual variance.

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Land cover changes and their biogeophysical effects on climate

Mahmood

Pielke

Hubbard

et al. 2013

Intl Journal of Climatology

618

411

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Land cover changes (LCCs) play an important role in the climate system. Research over recent decades highlights the impacts of these changes on atmospheric temperature, humidity, cloud cover, circulation, and precipitation. These impacts range from the local-and regional-scale to sub-continental and global-scale. It has been found that the impacts of regional-scale LCC in one area may also be manifested in other parts of the world as a climatic teleconnection. In light of these findings, this article provides an overview and synthesis of some of the most notable types of LCC and their impacts on climate. These LCC types include agriculture, deforestation and afforestation, desertification, and urbanization. In addition, this article provides a discussion on challenges to, and future research directions in, assessing the climatic impacts of LCC.

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Mean seasonal and spatial variability in global surface air temperature

Legates

Willmott

1990

Theor Appl Climatol

574

282

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David R. Legates

Evaluating the use of “goodness‐of‐fit” Measures in hydrologic and hydroclimatic model validation

Statistics for the evaluation and comparison of models

Mean seasonal and spatial variability in gauge‐corrected, global precipitation

Land cover changes and their biogeophysical effects on climate

Mean seasonal and spatial variability in global surface air temperature

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