MS045

Air temperature at core phenology sites and additional bird monitoring sites in the Andrews Experimental Forest, 2009 to present

Creator(s): Mark D Schulze, Matthew G Betts, Sarah J. K. Frey
PI(s): Matthew G Betts, Mark D Schulze
Originator(s): Sarah J. K. Frey
Other researcher(s): Adam M Kennedy, Sherri L. Johnson, Nina C. Ferrari
Dates of data preparation: Oct 1 2008 - Oct 8 2022
Data collection status: Study continues and further data collection is planned
Data access: Online

DOI: https://doi.org/10.6073/pasta/cbf6e8a684a074cca95b5f422ca5f0f2

Last update: Apr 24 2023 (Version 5)

<Citation> <Acknowledgement> <Disclaimer>
Schulze, M.; Betts, M.; Frey, S. 2023. Air temperature at core phenology sites and additional bird monitoring sites in the Andrews Experimental Forest, 2009 to present. Long-Term Ecological Research. Forest Science Data Bank, Corvallis, OR. [Database]. Available: http://andlter.forestry.oregonstate.edu/data/abstract.aspx?dbcode=MS045. https://doi.org/10.6073/pasta/cbf6e8a684a074cca95b5f422ca5f0f2. Accessed 2024-04-20.

Data were provided by the HJ Andrews Experimental Forest research program, funded by the National Science Foundation's Long-Term Ecological Research Program (DEB 2025755), US Forest Service Pacific Northwest Research Station, and Oregon State University.

While substantial efforts are made to ensure the accuracy of data and documentation, complete accuracy of data sets cannot be guaranteed. All data are made available "as is". The Andrews LTER shall not be liable for damages resulting from any use or misinterpretation of data sets.

ABSTRACT:
	The H.J Andrews phenology study air temperature network includes 16 core phenology sites, 40 core bird sites and 128 auxiliary bird sites. This study examines air temperatures at multiple sites within the Andrews Experimental Forest. Air temperatures were recorded 1.5 m above ground at 184 sites distributed on an 800-m incomplete grid throughout much of the Andrews Forest. Data were collected using automated sensors starting in June of 2009 at 56 sites and in June 2011 128 additional sensors were added. These data document the complex spatial and temporal patterns of air temperature variation within the Andrews Forest, which is governed by multiple processes including inversions, regional air mixing, cold air drainage and pooling, and the effects of vegetation on temperature extremes. The data entities provided indicate various methods of data quality checking over time.

Study Description

Study Site Map

Download Study Location Information: (CSV)
Ecological Metadata Language: (EML)

ENTITY TITLES:
1	Daily air temperature for phenology core sites (Oct 1 2008 - Sep 21 2015)	METADATA	DATA
	Derived from flagged output from WaTer.Py program with additional rigorous manual QA/QC
2	Hourly air temperature for phenology core sites (Oct 1 2008 - Sep 22 2015)	METADATA	DATA
	Derived from flagged output from WaTer.Py program with additional rigorous manual QA/QC
3	Daily air temperature for phenology core bird and auxiliary sites (Jan 1 2009 - Jul 30 2014)	METADATA	DATA
	Derived from filled output from WaTer.Py program
4	Hourly air temperature for phenology core bird and auxiliary sites (Jan 1 2009 - Jul 30 2014)	METADATA	DATA
	Derived from filled output from WaTer.Py program
5	Fine temporal resolution temperature and light intensity data for core, bird and auxiliary sites (Process A) (Jun 2 2009 - Aug 12 2018)	METADATA	DATA
	Raw data that has been flagged with the hja_hobo_clean Python program
6	Fine temporal resolution temperature and light intensity data for core, bird and auxiliary sites (Process B) (Jul 19 2018 - Oct 8 2022)	METADATA	DATA
	Raw data that has been flagged using defined QA_flag_definition criteria through GCE toolbox workflow
RELATED MATERIALS:
	HOBO workflow - Includes PDF files that describe the steps from field deployment through the production of raw data, which is input into the Python code, instructions to offload data from the shuttle, and download data from the logger with the shuttle.
	QA/QC flag definitions used in entity 6 - Table of flags used in GCE Toolbox workflow for QA/QC of MS045 and MV008 pendant temperature and intensity sensors
	Python workflow used in entity 5 - Includes instructions on how the Python code is run, including the yaml and wheel file to be used in the Python code, which can be adjusted by the user to change the flagging of the data, and the definition of flags used in the Python QAQC file.
	Sunrise-sunset table - Table by day of year for sunrise and sunset times in Pacific Daylight Time
	hja_hobo_clean Python program - The repository that hosts the code needed to process, flag and clean HOBO-collected data records from the H.J. Andrews Experimental Forest.
RELATED DATABASES:
	Forest-wide bird survey at 183 sample sites the Andrews Experimental Forest from 2009 to present (SA024)
	Vegetative Phenology observations at the Andrews Experimental Forest, 2009 - Present (TV075)
	Aquatic and terrestrial insect activity phenology with trap collections at the Andrews Experimental Forest, 2009-2014 (SA025)
	Stream temperature at core phenology stream sites in the Andrews Experimental Forest, 2009 - 2014 (HT006)
RELATED PUBLICATIONS:
	Kim, Hankyu, McComb, Brenda C., Frey, Sarah J. K., Bell, David M., Betts, Matthew G. 2022, Forest microclimate and composition mediate long-term trends of breeding bird populations (Pub. No: 5255)
	Wolf, Christopher, Bell, David M., Kim, Hankyu, Nelson, Michael Paul, Schulze, Mark, Betts, Matthew G. 2021, Temporal consistency of undercanopy thermal refugia in old-growth forest (Pub. No: 5193)
	Ward, Sarah E. 2018, Microclimate and Phenology at the H.J. Andrews Experimental Forest (Pub. No: 5051)
	Ward, Sarah E., Schulze, Mark, Roy, Bitty 2018, A long-term perspective on microclimate and spring plant phenology in the Western Cascades (Pub. No: 5070)
	Frey, Sarah J. K., Hadley, Adam S., Johnson, Sherri L., Schulze, Mark, Jones, Julia A., Betts, Matthew G. 2016, Spatial models reveal the microclimatic buffering capacity of old-growth forests (Pub. No: 4925)
	Schmidt, Stephanie A. 2019, Buzzing Bolbomyiidae and Air Temperature Monitoring Methods: Investigating Long-Term Ecological Data from the H.J. Andrews Experimental Forest (Pub. No: 5126)
	Argerich, Alba, Haggerty, Roy, Johnson, Sherri L., Wondzell, Steve M., Dosch, Nicholas, Corson-Rikert, Hayley, Ashkenas, Linda, Robert, Pennington, Thomas, Christoph K. 2016, Comprehensive multiyear carbon budget of a temperate headwater stream (Pub. No: 4929)
	Frey, Sarah J. K., Hadley, Adam S., Betts, Matthew G. 2016, Microclimate predicts within-season distribution dynamics of montane forest birds (Pub. No: 4930)
	Frey, Sarah J. K. 2014, Effects of Spatial Scale and Heterogeneity on Avian Occupancy Dynamics and Population Trends in Forested Mountain Landscapes (Pub. No: 4889)