Merge pull request #43 from stineb/main

Added thesis topic
geco-bern · Sep 18, 2024 · 6c3fcc5 · 6c3fcc5
2 parents c38d1fe + e509b9a
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diff --git a/config/_default/menus.yaml b/config/_default/menus.yaml
@@ -54,7 +54,7 @@ main:
     url: people
     weight: 60
   - name: Join us
-    url: event
+    url: joinus
     weight: 70
   - name: Publications
     url: publication

diff --git a/content/joinus/hires_cwd/index.md b/content/joinus/hires_cwd/index.md
@@ -1,7 +1,7 @@
 ---
 # Documentation: https://wowchemy.com/docs/managing-content/
 
-title: "Master thesis - High resolution quantification of seasonal water deficits"
+title: "Bachelor or Master thesis - High resolution quantification of seasonal water deficits"
 event:
 event_url:
 location: Institute of Geography, University of Bern
@@ -24,7 +24,7 @@ all_day: true
 publishDate: 2024-02-21T08:46:40+01:00
 
 authors: [Benjamin Stocker]
-tags: [Earth Observation, cumulative water deficit, MSc]
+tags: [Earth Observation, cumulative water deficit, MSc, BSc]
 
 # Is this a featured event? (true/false)
 featured: false

diff --git a/content/joinus/lgmveg/featured.png b/content/joinus/lgmveg/featured.png
diff --git a/content/joinus/lgmveg/index.md b/content/joinus/lgmveg/index.md
@@ -0,0 +1,76 @@
+---
+title: Master thesis - LGM-Holocene vegetation dynamics
+
+# event: Wowchemy Conference
+# event_url: https://example.org
+
+location: Institute of Geography and Institute of Plant Sciences, University of Bern
+# address:
+#   street: 450 Serra Mall
+#   city: Stanford
+#   region: CA
+#   postcode: '94305'
+#   country: United States
+
+# summary: Modelling biophysical limits to forest production
+# abstract: "Vegetation models underlying climate projections predict that forests will offset a large proportion of human CO2 emissions, but these models omit important biophysical controls of tree growth. Based on a mechanistic vegetation model, you will investigate how to implement such biophysical controls and how these might impact carbon fixation by forests in the future."
+
+# Talk start and end times.
+
+# #   End time can optionally be hidden by prefixing the line with `#`.
+# date: "Anytime"
+# date_end: "2030-06-01T15:00:00Z"
+# all_day: false
+
+# Schedule page publish date (NOT talk date).
+publishDate: "2024-09-18T00:00:00Z"
+
+authors: [Benjamin Stocker]
+tags: [paleo-climate, BiomeEP, vegetation dynamics, MSc]
+
+# Is this a featured talk? (true/false)
+featured: false
+
+image:
+  caption: 'Image source: Rey et al., 2020'
+  focal_point: Right
+
+links:
+# - icon: twitter
+#   icon_pack: fab
+#   name: Follow
+#   url: https://twitter.com/georgecushen
+url_code: ""
+url_pdf: ""
+url_slides: ""
+url_video: ""
+
+# Markdown Slides (optional).
+#   Associate this talk with Markdown slides.
+#   Simply enter your slide deck's filename without extension.
+#   E.g. `slides = "example-slides"` references `content/slides/example-slides.md`.
+#   Otherwise, set `slides = ""`.
+slides: ""
+
+# Projects (optional).
+#   Associate this post with one or more of your projects.
+#   Simply enter your project's folder or file name without extension.
+#   E.g. `projects = ["internal-project"]` references `content/project/deep-learning/index.md`.
+#   Otherwise, set `projects = []`.
+projects:
+- example
+---
+
+<!-- {{% callout note %}}
+Click on the **Slides** button above to view the built-in slides feature.
+{{% /callout %}} -->
+
+
+**Context**: Vegetation dynamics and the land carbon cycle can now be modelled more realistically thanks to a new generation of demography-resolving vegetation models. The succession of vegetation types since the Last Glacial Maximum, as reconstructed paleo-climatic archives, provides a perfect test for these models’ hindcasts of vegetation change and thus also their forecasts of vegetation responses to future climate change. 
+
+**Aim**: Model parameterisations for dominant European plant species will be developed and multi-millennial model simulations evaluated against vegetation reconstructions from lake sediments in the Alpine region.
+
+**Methods**: BiomeEP, paleo-climate simulation outputs, model parameterisation and evaluation.
+
+**Main supervision:** Prof. Dr. Benjamin Stocker
+**Co-supervision:** Prof. Willy Tinner, Dr. Christoph Schwörer
diff --git a/content/joinus/topo_veg/index.md b/content/joinus/topo_veg/index.md
@@ -1,7 +1,7 @@
 ---
 # Documentation: https://wowchemy.com/docs/managing-content/
 
-title: "Master and Bachelors theses - Topographic controls on vegetation patterns"
+title: "Master and Bachelor theses - Topographic controls on vegetation patterns"
 event:
 event_url:
 location: Institute of Geography, University of Bern