UiT The Arctic University of Norway

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1_Experimental_birds.pdf Aug 19, 2020 - Replication Data for: Evidence for circadian-based photoperiodic timekeeping in the Svalbard ptarmigan, the northernmost resident bird. Adobe PDF - 88.7 KB - MD5: ead3a1e465093f24820b6ec8f3e0ece7
2_Statistics.pdf Aug 19, 2020 - Replication Data for: Evidence for circadian-based photoperiodic timekeeping in the Svalbard ptarmigan, the northernmost resident bird. Adobe PDF - 229.4 KB - MD5: a81df2225a8f0e95bcf91bcc563020d8
3_ISH_data_OD.txt Aug 19, 2020 - Replication Data for: Evidence for circadian-based photoperiodic timekeeping in the Svalbard ptarmigan, the northernmost resident bird. Plain Text - 3.1 KB - MD5: 69efec7399d0faf2f0e6e4917a25a2c8
4_ISH_Riboprobe_sequence.txt Aug 19, 2020 - Replication Data for: Evidence for circadian-based photoperiodic timekeeping in the Svalbard ptarmigan, the northernmost resident bird. Plain Text - 2.8 KB - MD5: 73b05076fa3b34c6c8b27f312f866e6b
5_activity_1st_SkPexp.txt Aug 19, 2020 - Replication Data for: Evidence for circadian-based photoperiodic timekeeping in the Svalbard ptarmigan, the northernmost resident bird. Plain Text - 10.2 MB - MD5: 72185f3b64a66825720fe2c7eec6a896
6_activity_2nd_SkPexp.txt Aug 19, 2020 - Replication Data for: Evidence for circadian-based photoperiodic timekeeping in the Svalbard ptarmigan, the northernmost resident bird. Plain Text - 1.9 MB - MD5: d18d1bde5e2e8ae41e9e8f6a179a894b
7_body_mass.txt Aug 19, 2020 - Replication Data for: Evidence for circadian-based photoperiodic timekeeping in the Svalbard ptarmigan, the northernmost resident bird. Plain Text - 3.4 KB - MD5: 901907662ebba8d6b057eaca2a5dc4bd
8_food_intake.txt Aug 19, 2020 - Replication Data for: Evidence for circadian-based photoperiodic timekeeping in the Svalbard ptarmigan, the northernmost resident bird. Plain Text - 2.7 KB - MD5: 9eb691fc650c2e3183d936165b92470c
9_testosterone.txt Aug 19, 2020 - Replication Data for: Evidence for circadian-based photoperiodic timekeeping in the Svalbard ptarmigan, the northernmost resident bird. Plain Text - 1.3 KB - MD5: b646f5d03d0adb9a2b3cff5ee194f647
Replication data for: Modelling Silicate – Nitrate - Ammonium co-limitation of algal growth and the importance of bacterial remineralisation based on an experimental Arctic coastal spring bloom culture study Aug 19, 2020 Vonnahme, Tobias R; Leroy, Martial; Thoms, Silke; van Oevelen, Dick; Harvey, Rodger; Kristiansen, Svein; Dietrich, Ulrike; Gradinger, Rolf R; Völker, Christoph, 2020, "Replication data for: Modelling Silicate – Nitrate - Ammonium co-limitation of algal growth and the importance of bacterial remineralisation based on an experimental Arctic coastal spring bloom culture study", https://doi.org/10.18710/VA4IU9, DataverseNO, V1 Phytoplankton spring blooms in Arctic coastal ecosystems are affected by a drastically changing climate; making modelling their responses to these changes an important challenge to model ecosystem responses. These spring blooms are mostly dominated by diatoms growing exponentially in spring until the nutrients silicon or nitrogen are depleted and t...

1_Experimental_birds.pdf

Aug 19, 2020 - Replication Data for: Evidence for circadian-based photoperiodic timekeeping in the Svalbard ptarmigan, the northernmost resident bird.

Adobe PDF - 88.7 KB -

2_Statistics.pdf

Aug 19, 2020 - Replication Data for: Evidence for circadian-based photoperiodic timekeeping in the Svalbard ptarmigan, the northernmost resident bird.

Adobe PDF - 229.4 KB -

3_ISH_data_OD.txt

Aug 19, 2020 - Replication Data for: Evidence for circadian-based photoperiodic timekeeping in the Svalbard ptarmigan, the northernmost resident bird.

Plain Text - 3.1 KB -

4_ISH_Riboprobe_sequence.txt

Aug 19, 2020 - Replication Data for: Evidence for circadian-based photoperiodic timekeeping in the Svalbard ptarmigan, the northernmost resident bird.

Plain Text - 2.8 KB -

5_activity_1st_SkPexp.txt

Aug 19, 2020 - Replication Data for: Evidence for circadian-based photoperiodic timekeeping in the Svalbard ptarmigan, the northernmost resident bird.

Plain Text - 10.2 MB -

6_activity_2nd_SkPexp.txt

Aug 19, 2020 - Replication Data for: Evidence for circadian-based photoperiodic timekeeping in the Svalbard ptarmigan, the northernmost resident bird.

Plain Text - 1.9 MB -

7_body_mass.txt

Aug 19, 2020 - Replication Data for: Evidence for circadian-based photoperiodic timekeeping in the Svalbard ptarmigan, the northernmost resident bird.

Plain Text - 3.4 KB -

8_food_intake.txt

Aug 19, 2020 - Replication Data for: Evidence for circadian-based photoperiodic timekeeping in the Svalbard ptarmigan, the northernmost resident bird.

Plain Text - 2.7 KB -

9_testosterone.txt

Aug 19, 2020 - Replication Data for: Evidence for circadian-based photoperiodic timekeeping in the Svalbard ptarmigan, the northernmost resident bird.

Plain Text - 1.3 KB -

Replication data for: Modelling Silicate – Nitrate - Ammonium co-limitation of algal growth and the importance of bacterial remineralisation based on an experimental Arctic coastal spring bloom culture study

Aug 19, 2020

Vonnahme, Tobias R; Leroy, Martial; Thoms, Silke; van Oevelen, Dick; Harvey, Rodger; Kristiansen, Svein; Dietrich, Ulrike; Gradinger, Rolf R; Völker, Christoph, 2020, "Replication data for: Modelling Silicate – Nitrate - Ammonium co-limitation of algal growth and the importance of bacterial remineralisation based on an experimental Arctic coastal spring bloom culture study", https://doi.org/10.18710/VA4IU9, DataverseNO, V1

Phytoplankton spring blooms in Arctic coastal ecosystems are affected by a drastically changing climate; making modelling their responses to these changes an important challenge to model ecosystem responses. These spring blooms are mostly dominated by diatoms growing exponentially in spring until the nutrients silicon or nitrogen are depleted and t...

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