Abstract
Climate is one of the single most important factors affecting watershed ecosystems and water resources. The effect of climate variability and change has been studied extensively in some places; in many places, however, assessments are hampered by limited availability of long-term continuous climate data. Weather generators provide a means of synthesizing long-term climate data that can then be used in natural resource assessments. Given their potential, there is the need to evaluate the performance of the generators; in this study, three commonly used weather generators—CLImate GENerator (CLIGEN), Long Ashton Research Station Weather Generator (LARS-WG), and Weather Generators (WeaGETS) were compared with regard to their ability to capture the essential statistical characteristics of observed data (distribution, occurrence of wet and dry spells, number of snow days, growing season temperatures, and growing degree days). The study was based on observed 1966–2015 weather station data from the Western Lake Erie Basin (WLEB), from which 50 different realizations were generated, each spanning 50 years. Both CLIGEN and LARS-WG performed fairly well with respect to representing the statistical characteristics of observed precipitation and minimum and maximum temperatures, although CLIGEN tended to overestimate values at the extremes. This generator also overestimated dry sequences by 18%–30% and snow-day counts by 12%–19% when considered over the entire WLEB. It (CLIGEN) was, however, well able to simulate parameters specific to crop growth such as growing degree days and had an added advantage over the other generators in that it simulates a larger number of weather variables. LARS-WG overestimated wet sequence counts across the basin by 15%–38%. In addition, the optimal growth period simulated by LARS-WG also exceeded that obtained from observed data by 16%–29% basin-wide. Preliminary results with WeaGETS indicated that additional evaluation is needed to better define its parameters. Results provided insights into the suitability of both CLIGEN and LARS-WG for use with water resource applications.
Highlights
Climate is one of the single most important factors affecting ecosystems and water resources [1].Any change in climatic variables can result in adverse conditions, for example, the warming of lakes and rivers can lead to phenological shifts, organism abundance and productivity, a prolonged depletion of oxygen in deeper layers, and decreased surface layer nutrient concentrations
All generators captured the number of zero precipitation days relatively well with the exception of Long Ashton Research Station Weather Generator (LARS-Weather generators (WGs)) which simulated, on average, about 6 (1.6%) more days with zero precipitation than were evident from observed data
This study was aimed at evaluating the performance of three stochastic weather generators (CLIGEN, LARS-WG, and Weather Generators (WeaGETS)) for simulating weather data, with the Western Lake Erie Basin (WLEB) as a pilot study site
Summary
Any change in climatic variables can result in adverse conditions, for example, the warming of lakes and rivers can lead to phenological shifts, organism abundance and productivity, a prolonged depletion of oxygen in deeper layers, and decreased surface layer nutrient concentrations. Variables such as precipitation, temperatures, and atmospheric carbon dioxide concentration influence various hydrological parameters such as streamflow, surface runoff, and evapotranspiration. Assessments are hampered by paucity of data as continuous long-term climate data series are generally required to predict changes in spatial and temporal patterns of various hydrological parameters. This deficiency in climate data at some locations has prompted the use of weather generators to synthesize the climate series for a station for any number of years where data are only partially available or have missing values even within longer term datasets
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