add more published study notebook links

Author: Swanson-Hysell

example_notebooks/published_notebooks.md

@@ -7,37 +7,47 @@ These notebooks are examples of published studies that have used PmagPy within J
 :gutter: 3
 
 :::{grid-item-card}
-:link: published_notebooks/Tauxe_etal_2016
-:link-type: doc
+:link: https://polarwandering.github.io/PaleoSampling/
 :class-header: bg-light
 
-Tauxe et al. 2016 📓
-PmagPy Examples
+Sapienza et al. 2023 🎯
+Paleomagnetic sampling strategy design
 ^^^
 
-This notebook published with the paper on PmagPy illustrates some of the capabilities of PmagPy to analyze paleodirectional data, conduct statistical tests, and calculate paleomagnetic poles.
+This JupyterBook includes notebooks to evaluate different sampling strategies for estimating paleomagnetic poles and paleosecular variation of the magnetic field based on site magnetizations. (*external link to Paleosampling JupyterBook*).
 :::
 
 :::{grid-item-card}
-:link: https://github.com/Swanson-Hysell-Group/Laurentia_Paleogeography/blob/master/Code/Laurentia_pole_compilation.ipynb
+:link: https://github.com/PolarWandering/Gallo_etal_2023_APWP_construction/blob/main/code/2_MC_uncertainty_propagation.ipynb
 :class-header: bg-light
 
-Swanson-Hysell, 2021 🇨🇦🇺🇸
-Precambrian Laurentia paleomagnetic poles
+Gallo et al. 2023 🛣️
+Embracing uncertainty to resolve polar wander
+^^^
+
+Notebooks that utilizes PmagPy and custom functions build up a site level based apparent polar wander path for North America in the Cenozoic. (*external link to Github*).
+:::
+
+:::{grid-item-card}
+:link: https://github.com/Swanson-Hysell-Group/Nonesuch_Formation/blob/main/Code/Nonesuch_pmag.ipynb
+:class-header: bg-light
+
+Slotznick et al. 2023 🛶
+Reconstructing the paleoenvironment of an oxygenated Mesoproterozoic shoreline
 ^^^
 
-This notebook develops and visualizes a compilation of paleomagnetic poles for Laurentia associated with the chapter The Precambrian paleogeography of Laurentia in the book Ancient Supercontinents and the Paleogeography of the Earth (*external link to Github*).
+This notebook analyzes and visualizes the results of thermal demagnetization data for paleomagnetic samples collected from the Nonesuch Formation. (*external link to Github*).
 :::
 
 :::{grid-item-card}
-:link: https://github.com/Swanson-Hysell-Group/Inclination_Shallowing/blob/main/code/Cutface_pmag.ipynb
+:link: https://github.com/dave-heslop74/Bootstrap-CMDT/blob/v.1.0.0/Bootstrap%20confidence%20region.ipynb
 :class-header: bg-light
 
-Pierce et al. 2022 🧱
-Inclination shallowing
+Heslop et al. 2023 🥾
+A bootstrap common mean direction test
 ^^^
 
-This notebook analyzes data from a Mesoproterozoic sandstone and applies a new approach to provide elliptical pole position uncertainty associated with inclination shallowing that incorporates output from the elongation-inclination method (*external link to Github*).
+This notebook shows an example estimation of bootstrap confidence region for a mean direction (*external link to Github*).
 :::
 
 :::{grid-item-card}
@@ -52,37 +62,49 @@ This notebook examines Pleistocene paleointensity data from Israel, Antarctica,
 :::
 
 :::{grid-item-card}
-:link: https://github.com/Swanson-Hysell-Group/Nonesuch_Formation/blob/main/Code/Nonesuch_pmag.ipynb
+:link: https://github.com/Swanson-Hysell-Group/Inclination_Shallowing/blob/main/code/Cutface_pmag.ipynb
 :class-header: bg-light
 
-Slotznick et al. 2023 🛶
-Reconstructing the paleoenvironment of an oxygenated Mesoproterozoic shoreline
+Pierce et al. 2022 🧱
+Inclination shallowing
 ^^^
 
-This notebook analyzes and visualizes the results of thermal demagnetization data for paleomagnetic samples collected from the Nonesuch Formation. (*external link to Github*).
+This notebook analyzes data from a Mesoproterozoic sandstone and applies a new approach to provide elliptical pole position uncertainty associated with inclination shallowing that incorporates output from the elongation-inclination method (*external link to Github*).
 :::
 
 :::{grid-item-card}
-:link: https://github.com/PolarWandering/Gallo_etal_2023_APWP_construction/blob/main/code/2_MC_uncertainty_propagation.ipynb
+:link: https://github.com/Swanson-Hysell-Group/Bayesian_PEP_inversion/blob/main/PEP_Australia.ipynb
 :class-header: bg-light
 
-Gallo et al. 2023 🛣️
-Embracing uncertainty to resolve polar wander
+Rose et al. 2022 🦘
+Bayesian paleomagnetic Euler pole
 ^^^
 
-Notebooks that utilizes PmagPy and custom functions build up a site level based apparent polar wander path for North America in the Cenozoic. (*external link to Github*).
+This notebook conducts and plots a paleomagnetic Euler pole analysis for Cenozoic poles from Australia (*external link to Github*).
 :::
 
 :::{grid-item-card}
-:link: https://polarwandering.github.io/PaleoSampling/
+:link: https://github.com/Swanson-Hysell-Group/Laurentia_Paleogeography/blob/master/Code/Laurentia_pole_compilation.ipynb
 :class-header: bg-light
 
-Sapienza et al. 2023 🎯
-Paleomagnetic sampling strategy design
+Swanson-Hysell, 2021 🇨🇦🇺🇸
+Precambrian Laurentia paleomagnetic poles
 ^^^
 
-This JupyterBook includes notebooks to evaluate different sampling strategies for estimating paleomagnetic poles and paleosecular variation of the magnetic field based on site magnetizations. (*external link to Paleosampling JupyterBook*).
+This notebook develops and visualizes a compilation of paleomagnetic poles for Laurentia associated with the book Ancient Supercontinents and the Paleogeography of the Earth (*external link to Github*).
+:::
+
+:::{grid-item-card}
+:link: published_notebooks/Tauxe_etal_2016
+:link-type: doc
+:class-header: bg-light
+
+Tauxe et al. 2016 📓
+PmagPy Examples
+^^^
+
+This notebook published with the paper on PmagPy illustrates capabilities of PmagPy through analyzing paleodirectional data, conduct statistical tests, and calculate paleomagnetic poles.
 :::
 
 ::::
-Here are the citations to the above notebooks: {cite}`Tauxe2016a`, {cite}`Swanson-Hysell2021a`, {cite}`Pierce2022a`, {cite}`Tauxe2022a`, {cite}`Slotznick2023a`, {cite}`Gallo2023a`, {cite}`Sapienza2023a`
+Here are the citations to the above notebooks: {cite}`Tauxe2016a`, {cite}`Swanson-Hysell2021a`,{cite}`Rose2022a`,  {cite}`Pierce2022a`, {cite}`Tauxe2022a`, {cite}`Heslop2023a`, {cite}`Slotznick2023a`, {cite}`Gallo2023a`, {cite}`Sapienza2023a`

references.bib

@@ -1,6 +1,36 @@
 ---
 ---
 
+@article{Heslop2023a,
+	author = {David Heslop and Janice L. Scealy and Andrew T. A. Wood and Lisa Tauxe and Andrew P. Roberts},
+	date-added = {2023-09-25 10:56:10 -0700},
+	date-modified = {2023-09-25 10:56:13 -0700},
+	doi = {10.1029/2023jb026983},
+	journal = {Journal of Geophysical Research: Solid Earth},
+	month = {aug},
+	number = {8},
+	publisher = {American Geophysical Union ({AGU})},
+	title = {A Bootstrap Common Mean Direction Test},
+	url = {https://doi.org/10.1029%2F2023jb026983},
+	volume = {128},
+	year = 2023,
+	bdsk-url-1 = {https://doi.org/10.1029%2F2023jb026983},
+	bdsk-url-2 = {https://doi.org/10.1029/2023jb026983}}
+
+@article{Rose2022a,
+	author = {Ian R. Rose and Yiming Zhang and Nicholas L. Swanson-Hysell},
+	date-added = {2023-04-01 09:16:10 -0700},
+	date-modified = {2023-04-01 09:16:27 -0700},
+	doi = {10.1029/2021jb023890},
+	journal = {Journal of Geophysical Research: Solid Earth},
+	number = {10},
+	publisher = {American Geophysical Union ({AGU})},
+	title = {Bayesian Paleomagnetic {E}uler Pole Inversion for Paleogeographic Reconstruction and Analysis},
+	volume = {127},
+	year = 2022,
+	bdsk-url-1 = {https://doi.org/10.1029%2F2021jb023890},
+	bdsk-url-2 = {https://doi.org/10.1029/2021jb023890}}
+
 @incollection{Swanson-Hysell2021a,
 	author = {Swanson-Hysell, N. L.},
 	booktitle = {{Ancient Supercontinents and the Paleogeography of the Earth}},