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2014 reciprocal transplant air and soil temperature 2015-2016
Air and soil temperature in warmed and control plots of 2014 reciprocal transplant gardens Toolik Lake, Coldfoot, and Sagwon, Alaska 2015 and 2016
Jianwu
Tang
Ecosystems Center MBL, 7 MBL St.
Woods Hole
MA
US
jtang@mbl.edu
http://www.mbl.edu/ecosystems/tang/
https://orcid.org/0000-0003-2498-9012
Ned
Fetcher
Wilkes University,Institute for Environmental Science and Sustainabilty,84. W. South St.
Wlkes-Barre
PA
18766
US
ned.fetcher@wilkes.edu
https://orcid.org/0000-0003-2604-299X
Michael
Moody
Biological Sciences, The University of Texas at El Paso
El Paso
TX
79968
US
mlmoody@utep.edu
https://orcid.org/0000-0003-0327-267X
Arctic Long Term Ecological Research
http://arc.lternet.edu
Steven
Unger
7 mbl
woods hole
MA
02543
US
sunge001@fiu.edu
field crew
2019
English
Air and soil temperatures from iButtons located at reciprocal transplant gardens at Toolik Lake, Coldfoot, and Sagwon in 2015 and 2016. The reciprocal transplant gardens at Coldfoot (CF), Toolik Lake (TL), Sagwon (SG) Each plot contains three tussocks, 30-50 centimeters apart
populations
Core Areas
soil warming
soil temperature
air temperature
populations
LTER Controlled Vocabulary
common garden
Arctic LTER Vocabulary
Data Policies
This work is licensed under the Creative Commons Attribution 4.0 International License. To view a copy of this license, visit http://creativecommons.org/licenses/by/4.0/.
The consumer of these data ("Data User" herein) is required to cite it appropriately in any publication that results from its use. The Data User should realize that these data may be actively used by others for ongoing research and that coordination may be necessary to prevent duplicate publication. The Data User is urged to contact the authors of these data if any questions about methodology or results occur. Where appropriate, the Data User is encouraged to consider collaboration or co-authorship with the authors. The Data User should realize that misinterpretation of data may occur if used out of context of the original study. While substantial efforts are made to ensure the accuracy of data and associated documentation, complete accuracy of data sets cannot be guaranteed. All data are made available "as is." The Data User should be aware, however, that data are updated periodically and it is the responsibility of the Data User to check for new versions of the data. The data authors and the repository where these data were obtained shall not be liable for damages resulting from any use or misinterpretation of the data. Thank you.
Citation. It is considered a matter of professional ethics to acknowledge the work of other scientists. Thus, the Data User should properly cite the Data Set in any publications or in the metadata of any derived data products that were produced using the Data Set.
Acknowledgement. The Data User should acknowledge any institutional support or specific funding awards referenced in the metadata accompanying this dataset in any publications where the Data Set contributed significantly to its content. Acknowledgements should identify the supporting party, the party that received the support, and any identifying information such as grant numbers.
For example: Data sets were provided by the Arctic LTER. This material is based upon work supported by the National Science Foundation under Award numbers #1637459,1026843, 9810222, 9211775, 8702328.
https://arc-lter.ecosystems.mbl.edu/2014-reciprocal-transplant-air-and-soil-temperature-2015-2016
Toolik Lake Transplant Garden: The garden is in the complex of "historic sites" at Toolik Lake.
-149.576522827148
-149.576522827148
68.628883361816
68.628883361816
759
759
meter
Coldfoot Transplant Garden: The garden is 100 m north of the edge of the forest and 190 m east of the Dalton Highway.
-150.169006347656
-150.169006347656
67.259002685547
67.259002685547
319
319
meter
Sagwon Transplant Garden: The garden is 50 m north of the upper parking area at the Sagwon Overlook pulloff. Site fomerly known as MS 127.
-148.710006713867
-148.710006713867
69.424400329590
69.424400329590
269
269
meter
2015-06-18
2016-08-28
species
Eriophorum vaginatum
Version 1: uploaded to data portalVersion 2: corrected author listing.Version 3: removed abbreviations
Jianwu
Tang
Ecosystems Center MBL, 7 MBL St.
Woods Hole
MA
US
jtang@mbl.edu
http://www.mbl.edu/ecosystems/tang/
https://orcid.org/0000-0003-2498-9012
Ned
Fetcher
Wilkes University,Institute for Environmental Science and Sustainabilty,84. W. South St.
Wlkes-Barre
PA
18766
US
ned.fetcher@wilkes.edu
https://orcid.org/0000-0003-2604-299X
Arctic
LTER publisher
7 M B L St.
Woods Hole
MA
02536
US
arc_im@mbl.edu
Arctic Long Term Ecological Research
ibutton temperature sensors were placed at the reciprocal transplant gardens at Coldfoot (CF), Toolik Lake (TL), Sagwon (SG) Each plot contains three tussocks, 30-50 cm apart. Loggers were placed in the soil at -10 cm amd -2 cm by sealing in a small 4x 4 cm bag then sliding down a pre-cut hole in the soil and squeezing it firmly shut. long pieces of tape ran from the loggers to the surface so that they could be recovered. Air temperature was measured by inserting the ibutton into a gouged hole in a 3 x 4 x 8 cm piece of wood, the ibutton was sealed in place at two points using a small amount of hot-melt glue. The gouge in the wood was deep enough to allow good air circulation around the logger. the piece of wood was mounted on a steak which held the logger approximately 20 above the ground.
Loggers at -10, -2 and 20 cm were set in three plots at CF (CF1, TL1 and SG1 (see map)) and six plots at TL and SG (CF1, CF2, TL1, TL2, SG1 and SG2). At SG and TL this represented three warmed plots and three control plots (see map). Some loggers could not be retrieved.
Loggers were set to measure temperature to the closest 0.5 °C on an hourly basis
Note:
In 2016 loggers could not be inserted at 10 cm depth until later in the season at SG and TL until the soil thawed to that depth
Ecotypic Variation in Tundra Plants
Ned
Fetcher
Wilkes University,Institute for Environmental Science and Sustainabilty,84. W. South St.
Wlkes-Barre
PA
18766
US
ned.fetcher@wilkes.edu
https://orcid.org/0000-0003-2604-299X
principalInvestigator
James
McGraw
West Virginia University,Department of Biology,53 Campus Drive
Morgantown
WV
26506-6057
US
jmcgraw@wvu.edu
https://orcid.org/0000-0002-5128-1135
principalInvestigator
Jianwu
Tang
Ecosystems Center MBL, 7 MBL St.
Woods Hole
MA
US
jtang@mbl.edu
http://www.mbl.edu/ecosystems/tang/
https://orcid.org/0000-0003-2498-9012
principalInvestigator
Michael
Moody
Biological Sciences, The University of Texas at El Paso
El Paso
TX
79968
US
mlmoody@utep.edu
https://orcid.org/0000-0003-0327-267X
principalInvestigator
Reciprocal transplant experiments designed to quantify genetic and environmental effects on phenotype are powerful tools for the study of local adaptation. For long-lived species, especially those in habitats with short growing seasons, however, the cumulative effects of many years in novel environments may be required for fitness differences and phenotypic changes to accrue. We returned to reciprocal transplant experiments thirty years after their initial establishment in interior Alaska to ask whether patterns of differentiation observed in the years immediately following transplant have persisted.
Funding for this research was provided by the National Science Foundation Division of Polar Programs Award Numbers: 1417645, 1417763 and 1418010,
1417645
1417763
1418010
2014 reciprocal transplant air and soil temperature 2015_csv
Air and soil temperatures from iButtons located at reciprocal transplant gardens at Toolik Lake, Coldfoot, and Sagwon in 2015
2014 reciprocal transplant air and soil temperature 2015.csv
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column
,
"
https://arc-lter.ecosystems.mbl.edu/sites/default/files/data/ecotypes/2014%20reciprocal%20transplant%20air%20and%20soil%20temperature%202015.csv
Date
Date
Date
date
YYYY-MM-DD
Time
Time
Time
date
hh:mm
C_C1_10
C_C1_10
SITE_PLOT_HEIGHT/DEPTH
celsius
real
0
C_C1_20
C_C1_20
SITE_PLOT_HEIGHT/DEPTH
celsius
real
-5.5
34.5
C_S1_10
C_S1_10
SITE_PLOT_HEIGHT/DEPTH
celsius
real
2.5
24.5
C_S1_2
C_S1_2
SITE_PLOT_HEIGHT/DEPTH
celsius
real
1.5
24
C_T1_10
C_T1_10
SITE_PLOT_HEIGHT/DEPTH
celsius
real
2.5
23.5
C_T1_2
C_T1_2
SITE_PLOT_HEIGHT/DEPTH
celsius
real
2
22
S_C1_10
S_C1_10
SITE_PLOT_HEIGHT/DEPTH
celsius
real
0.5
5
S_C1_2
S_C1_2
SITE_PLOT_HEIGHT/DEPTH
celsius
real
0.5
17
S_C1_20
S_C1_20
SITE_PLOT_HEIGHT/DEPTH
celsius
real
-2.5
36
S_C2_10
S_C2_10
SITE_PLOT_HEIGHT/DEPTH
celsius
real
0.5
10
S_C2_2
S_C2_2
SITE_PLOT_HEIGHT/DEPTH
celsius
real
0.5
22
S_C2_20
S_C2_20
SITE_PLOT_HEIGHT/DEPTH
celsius
real
-2
36
S_S1_10
S_S1_10
SITE_PLOT_HEIGHT/DEPTH
celsius
real
1
24.5
S_S1_2
S_S1_2
SITE_PLOT_HEIGHT/DEPTH
celsius
real
0
23.5
S_S2_10
S_S2_10
SITE_PLOT_HEIGHT/DEPTH
celsius
real
0
22
S_S2_2
S_S2_2
SITE_PLOT_HEIGHT/DEPTH
celsius
real
0.5
21
S_T1_10
S_T1_10
SITE_PLOT_HEIGHT/DEPTH
celsius
real
0.5
23.5
S_T1_2
S_T1_2
SITE_PLOT_HEIGHT/DEPTH
celsius
real
-1.5
23.5
S_T2_10
S_T2_10
SITE_PLOT_HEIGHT/DEPTH
celsius
real
0.5
22
S_T2_2
S_T2_2
SITE_PLOT_HEIGHT/DEPTH
celsius
real
0
21
T_C1_10
T_C1_10
SITE_PLOT_HEIGHT/DEPTH
celsius
real
1
17.5
T_C1_2
T_C1_2
SITE_PLOT_HEIGHT/DEPTH
celsius
real
1
19.5
T_C2_10
T_C2_10
SITE_PLOT_HEIGHT/DEPTH
celsius
real
0.5
9
T_C2_2
T_C2_2
SITE_PLOT_HEIGHT/DEPTH
celsius
real
0
16
T_C2_20
T_C2_20
SITE_PLOT_HEIGHT/DEPTH
celsius
real
-4.5
34
T_S1_10
T_S1_10
SITE_PLOT_HEIGHT/DEPTH
celsius
real
0
5
T_S1_2
T_S1_2
SITE_PLOT_HEIGHT/DEPTH
celsius
real
0.5
10
T_S2_10
T_S2_10
SITE_PLOT_HEIGHT/DEPTH
celsius
real
0
10
T_S2_2
T_S2_2
SITE_PLOT_HEIGHT/DEPTH
celsius
real
-0.5
15
T_T1_10
T_T1_10
SITE_PLOT_HEIGHT/DEPTH
celsius
real
1
7
T_T1_2
T_T1_2
SITE_PLOT_HEIGHT/DEPTH
celsius
real
0.5
16.5
T_T2_10
T_T2_10
SITE_PLOT_HEIGHT/DEPTH
celsius
real
1.5
8
T_T2_2
T_T2_2
SITE_PLOT_HEIGHT/DEPTH
celsius
real
0.5
19
1679
2014 reciprocal transplant air and soil temperature 2016_csv
Air and soil temperatures from iButtons located at reciprocal transplant gardens at Toolik Lake, Coldfoot, and Sagwon in 2015
2014 reciprocal transplant air and soil temperature 2016.csv
291207
e146b1dce835d7c47e7608d444522967
ab01960c1550d877cdc571eb3b4d8508c171d629
4
\r\n
column
,
"
https://arc-lter.ecosystems.mbl.edu/sites/default/files/data/ecotypes/2014%20reciprocal%20transplant%20air%20and%20soil%20temperature%202016.csv
Date
Date
Date
date
YYYY-MM-DD
Time
Time
Time
date
hh:mm
CF_CF1_-10
CF_CF1_-10
SITE_PLOT_HEIGHT/DEPTH
celsius
real
1.5
27
CF_CF1_20
CF_CF1_20
SITE_PLOT_HEIGHT/DEPTH
celsius
real
-4.5
40
CF_CF1_-2
CF_CF1_-2
SITE_PLOT_HEIGHT/DEPTH
celsius
real
1.5
30
CF_SG1_20
CF_SG1_20
SITE_PLOT_HEIGHT/DEPTH
celsius
real
-4
38
CF_SG1_-10
CF_SG1_-10
SITE_PLOT_HEIGHT/DEPTH
celsius
real
1.5
31.5
CF_SG1_-2
CF_SG1_-2
SITE_PLOT_HEIGHT/DEPTH
celsius
real
1.5
32
CF_TL1_-2
CF_TL1_-2
SITE_PLOT_HEIGHT/DEPTH
celsius
real
1
29
CF_TL1_-10
CF_TL1_-10
SITE_PLOT_HEIGHT/DEPTH
celsius
real
1
30.5
CF_TL1_20
CF_TL1_20
SITE_PLOT_HEIGHT/DEPTH
celsius
real
-4.5
36.5
SG_CF1_-10
SG_CF1_-10
SITE_PLOT_HEIGHT/DEPTH
celsius
real
1
36
SG_CF1_-2
SG_CF1_-2
SITE_PLOT_HEIGHT/DEPTH
celsius
real
0
20
SG_CF1_20
SG_CF1_20
SITE_PLOT_HEIGHT/DEPTH
celsius
real
-1
36.5
SG_CF2_-10
SG_CF2_-10
SITE_PLOT_HEIGHT/DEPTH
celsius
real
0
37
SG_CF2_-2
SG_CF2_-2
SITE_PLOT_HEIGHT/DEPTH
celsius
real
0
19.5
SG_CF2_20
SG_CF2_20
SITE_PLOT_HEIGHT/DEPTH
celsius
real
-2.5
32.5
SG_SG1_20
SG_SG1_20
SITE_PLOT_HEIGHT/DEPTH
celsius
real
-2.5
34
SG_SG1_-10
SG_SG1_-10
SITE_PLOT_HEIGHT/DEPTH
celsius
real
0.5
31.5
SG_SG1_-2
SG_SG1_-2
SITE_PLOT_HEIGHT/DEPTH
celsius
real
0
21
SG_SG2_-2
SG_SG2_-2
SITE_PLOT_HEIGHT/DEPTH
celsius
real
-0.5
18.5
SG_SG2_-10
SG_SG2_-10
SITE_PLOT_HEIGHT/DEPTH
celsius
real
1
34.5
SG_TL1_20
SG_TL1_20
SITE_PLOT_HEIGHT/DEPTH
celsius
real
-1.5
40
SG_TL1_-2
SG_TL1_-2
SITE_PLOT_HEIGHT/DEPTH
celsius
real
-0.5
20.5
SG_TL1_-10
SG_TL1_-10
SITE_PLOT_HEIGHT/DEPTH
celsius
real
0.5
31.5
SG_TL2_-2
SG_TL2_-2
SITE_PLOT_HEIGHT/DEPTH
celsius
real
-0.5
19
SG_TL2_-10
SG_TL2_-10
SITE_PLOT_HEIGHT/DEPTH
celsius
real
0.5
32.5
TL_CF1_-2
TL_CF1_-2
SITE_PLOT_HEIGHT/DEPTH
celsius
real
0
32.5
TL_CF1_20
TL_CF1_20
SITE_PLOT_HEIGHT/DEPTH
celsius
real
-6
37
TL_CF2_-2
TL_CF2_-2
SITE_PLOT_HEIGHT/DEPTH
celsius
real
0
37
TL_CF2_20
TL_CF2_20
SITE_PLOT_HEIGHT/DEPTH
celsius
real
-6.5
31
TL_CF2_-10
TL_CF2_-10
SITE_PLOT_HEIGHT/DEPTH
celsius
real
0
34
TL_SG1_20
TL_SG1_20
SITE_PLOT_HEIGHT/DEPTH
celsius
real
-5
32.5
TL_SG1_-2
TL_SG1_-2
SITE_PLOT_HEIGHT/DEPTH
celsius
real
0
36.5
TL_SG2_-10
TL_SG2_-10
SITE_PLOT_HEIGHT/DEPTH
celsius
real
0
31.5
TL_SG2_-2
TL_SG2_-2
SITE_PLOT_HEIGHT/DEPTH
celsius
real
0
31
TL_SG2_20
TL_SG2_20
SITE_PLOT_HEIGHT/DEPTH
celsius
real
-5
31.5
TL_TL1_20
TL_TL1_20
SITE_PLOT_HEIGHT/DEPTH
celsius
real
-4.5
40.5
TL_TL1_-2
TL_TL1_-2
SITE_PLOT_HEIGHT/DEPTH
celsius
real
0
32
TL_TL2_-2
TL_TL2_-2
SITE_PLOT_HEIGHT/DEPTH
celsius
real
0
35
TL_TL2_-10
TL_TL2_-10
SITE_PLOT_HEIGHT/DEPTH
celsius
real
1.5
34
2079
2014 reciprocal transplant air and soil temperature 2015-2016_excel
Excel files with metadata and data sheetsAir and soil temperature in warmed and control plots of 2014 reciprocal transplant gardens Toolik Lake, Coldfoot, and Sagwon, Alaska 2015 and 2016
2014 reciprocal transplant air and soil temperature 2015-2016.xls
1814016
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5107d53c83de62fd51e3cdc89d3817bbcab6db35
application/vnd.ms-excel
https://arc-lter.ecosystems.mbl.edu/sites/default/files/data/ecotypes/2014%20reciprocal%20transplant%20air%20and%20soil%20temperature%202015-2016.xls
document
urn:node:ADC