MS049
Wind speed and direction data from benchmark stations at the HJ Andrews Experimental Forest, 1973 to present

CREATOR(S): Christopher Daly, Mark D Schulze, W. Arthur McKee

PRINCIPAL INVESTIGATOR(S): Mark D Schulze, Christopher Daly

ORIGINATOR(S): W. Arthur McKee

OTHER RESEARCHER(S): Mark D Schulze, Sherri L. Johnson, Julia A. Jones, Adam M Kennedy, Stephanie A Schmidt, Greg M Cohn

DATA SET CONTACT PERSON: Adam M Kennedy, Stephanie A Schmidt

ABSTRACTOR: Donald L. Henshaw, Suzanne M. Remillard

METHOD CONTACT: Greg Downing, Greg M Cohn

FORMER INVESTIGATOR: Richard H. Waring, David Greenland, Mark E. Harmon, Don Henshaw, Craig Creel, Frederick A. Bierlmaier, John Moreau, Christoph K Thomas, Michael H. Unsworth, Anne W. Nolin, Adam B. Mazurkiewicz, Alfred B. Levno, Roswell C. Mersereau, Fox Sparky Peterson

METADATA CREATION DATE:

20 Jun 2024

MOST RECENT METADATA REVIEW DATE:

20 Jun 2024

KEYWORDS:

meteorology, climatology, climate change, wind direction, wind speed, disturbance, monitoring

PURPOSE:

Hydrology, climatology, and biology interact over a wide range of spatial and temporal scales. Continuous interaction among climate, soils, landuse, and vegetation shape the hydrology and ecology of a landscape. Long-term measurements of such variables at various time and space scales provide an essential foundation for understanding ecosystem processes, and document changes in the local, regional, and global environments.

METHODS:

Experimental Design - MS049:

Description:

Much of the early climatological measurements on the Andrews Forest were associated with the investigation of the initial small watersheds experiment (Watersheds 1, 2, 3). The Climatic Station on WS 2 was installed in 1956 to measure precipitation and a hygrothermograph was added in 1958. The High-15 station was established to measure precipitation in 1964 in conjunction with small watersheds 6, 7, 8, and has evolved into a secondary meteorological station. A more general set of modeling needs led to the installation of the Primary Meteorological Station in 1972 to characterize the meso-scale environment. Originally, solar radiation, air temperature, dew point temperature, and windspeed were collected. Along with precipitation from the climatic station on WS 2, these were the primary climatic variables needed for the models predicting the rates at which materials accumulate or move through ecosystems (Waring et al., 1978). Significant improvements to the station were made in 1975, 1979, and 1988, as the station evolved from chart recorders to state-of-the-art digital data loggers (Bierlmaier and McKee, 1989). The Vanilla Leaf Met Station was installed in 1987. The primary intent was to provide micro- meteorological data for a study of seedling survival following clearcut and shelterwood logging at high elevation. Ultimately, the shelterwood site was discontinued and the clearcut site has evolved as a primary high elevation meteorological station.

Four Benchmark Meteorological Stations (BMS) and two second-level stations are included in the MS001 database. The Primary Meteorological and Vanilla Leaf Meteorological BMS are retained. Two new BMS are installed. In 1994, the Upper Lookout Meteorological Station was established at high elevation (4200 ft, ENE aspect) on clearcut L708 in the SE Andrews. In 1995 the Central Meteorological BMS was established at a centrally located site on clearcut L351 (3300 ft, WSW aspect) in the east-central Andrews. A GIS analysis of elevation and aspect indicated the average elevation (3170 ft., 966 m) and average aspect (267 degrees) of the Andrews Forest, and the Central Met Station was located to represent these general averages. Modifications are made to the Primary and Vanilla Leaf Stations to standardize measured variables, temporal resolution, methods, and instrumention across all BMS. Sites will be cleared and required openings maintained following standards of the National Weather Service, the LTER network, and where appropriate, the NADP network. Telemetering of all BMS was completed in 1996. Second-level stations (SLS) at the Hi-15 and WS 2 Climatic Station will continue to be maintained for measurement of precipitation, temperature, and other data to maintain continuity of historical records. These sites also follow established procedural standards.

The BMS include meteorological measurement of air and soil temperature, relative humidity, calculated dew point temperature and vapor pressure deficit, wind speed and direction measurement, incoming solar radiation, photosynthetically active radiation (PAR), soil moisture, snow melt, and snow moisture and depth.

Citation: The Program for Hydroclimatological Measurement at the H.J. Andrews Experimental Forest by Don Henshaw, Arthur McKee, Alok Sikka 18 Aug 1995 http://andrewsforest.oregonstate.edu/research/component/climate/clim95.pdf

Field Methods - MS049: Wind speed and direction :

Description:

The follow link describes data collection methods (by date range and resolution) that have been used by each unique probe. Results are filtered by database code, sitecode, parameter, and probe.

https://andlter.forestry.oregonstate.edu/MethodCode/View_History.aspx

Please follow this link to view climate data collection methods that have been used over time at select stations. Results can be filtered by parameter, climate station, and date range. A general text search is also available.

https://hjandrews.shinyapps.io/im_methods_history/

Hourly mean wind speed, resultant mean wind vector magnitude and standard deviation, resultant mean daily wind vector direction, and daily wind direction vector components (Wind Rose) are output at each of the four benchmark stations (PRIMET, CENMET, UPLMET, VANMET). The data logger samples every 15 seconds and the sensor is installed a 10m height. It has been discovered that wind speed from this propeller-style wind anemometers are not accurate below 1 meter per second. Much of this data will be tagged as 'Questionable' or possibly removed.

Instrumentation: Wind speed and direction is sampled by a RM Young Model 05103 Wind Monitor mounted to the tower. Potentiometer measures direction, anemometer measures wind speed. Data logger is a Campbell Scientific model. Data collected by the Wind Monitor is processed by the Campbell Wind Vector instruction #69 option #2. Historical method: Wind speed was measured with a cup-type anemometer which provides contact closure for every .322 km of air movement. This signal is recorded by an event marker along the border of the same Rustrak strip chart used to record dewpoint. Data logger is Interface Instrument M-2 (1970's) or, Wind speed sensors (R.M. Young #6101 tachometer generators) were mounted on a tower. Data logger is Interface Instrument M-4 (1980's).

Processing Procedures - MS001 :

Description: Sensor data streams via wifi into files at the headquarters. The files are run through GCE Data Toolbox, which is a comprehensive software framework for metadata-based analysis, quality control, transformation and management of ecological data sets. https://gce-lter.marsci.uga.edu/public/im/tools/data_toolbox.htm. The files are provided on the provisional data page. For processing into final formats, these files are processed through a Python script called Fastbridge where data visualization is possible and QC/QA validation and report logs occur. Data ranges are checked, specific statistical analysis are performed, data are transformed into final FSDB format.

Citation: Sheldon, Wade M. 2002. GCE Data Toolbox for MATLAB. Georgia Coastal Ecosystems LTER, University of Georgia, Athens.

Processing Procedure - MS001: Early PRIMET data :

Description:

A description of the early processing history and instrumentation for the Primary Meteorological Station (PRIMET), 1972-1989, is posted here:

http://andrewsforest.oregonstate.edu/data/studies/ms01/ms001_primet_1972_1989.pdf

SITE DESCRIPTION:

Temperature and rainfall in the Andrews Experimental Forest are are typical of a maritime climate with wet, relatively mild winters and dry, cool summers. Humidity is generally high through winter months, and maximum daily relative humidity approaches 100 percent at night throughout the year. Minimum summer humidities generally hover around 30-50 percent. Temperature extremes range from near 0 degrees F in unusually cold winters to over 100 degrees for brief periods almost every summer. The range in mean annual temperature (1972-2002) is 7.1-10.5 degrees C at a low elevation site (PRIMET). Precipitation varies with elevation - long-term annual average at low elevation (450 m) is 2200 mm, and at high elevation (1200m) is 2600 mm.

TAXONOMIC SYSTEM:

None

GEOGRAPHIC EXTENT:

H. J. Andrews Experimental Forest

ELEVATION_MINIMUM (meters):

436

ELEVATION_MAXIMUM (meters):

1300

MEASUREMENT FREQUENCY:

continuous

PROGRESS DESCRIPTION:

Active

UPDATE FREQUENCY DESCRIPTION:

notPlanned

CURRENTNESS REFERENCE:

Ground condition