Fix project removal error

_toc.yml

@@ -15,7 +15,7 @@ parts:
     - file: scholar-outputs/2023/project2
     - file: scholar-outputs/2023/project3
     - file: scholar-outputs/2023/project4
-    - file: scholar-outputs/2023/project6
+    - file: scholar-outputs/2023/project5
     - file: scholar-outputs/2023/project7
     - file: scholar-outputs/2023/project8
     - file: scholar-outputs/2023/project9

scholar-outputs/2023/project4.md

@@ -2,12 +2,12 @@
 
 Team "Fukuivenator Rhumba"
 
-**Sthitapragya Ray**, **Andrea A. Cabrera**, **Diana Marcela Guzmán Lugo**, **Vanni Consumi**, **Daria Proklova**, **Elizaveta Baranova-Parfenova**
+**Sthitapragya Ray**, **Elizaveta Baranova-Parfenova**, **Andrea A. Cabrera**, **Diana Marcela Guzmán Lugo**, **Daria Proklova**
 
 Mentor: **Emma Daniels**
 
 <div style="text-align: justify">
-The El Nino Southern Oscillation (ENSO) is known to influence global atmospheric and oceanic conditions through teleconnection effects. In this analysis, we have analysed the teleconnection between ENSO and the North West African (NWA) coastal upwelling system. Coastal upwelling systems, characterised by the upward flow of cool nutrient-rich waters from the deeper ocean to its surface, are hotspots of biological activity and crucial for ocean productivity. Our analysis relied on a method called the complex rotated maximum covariance analysis which identifies linked modes of variability between two spatio-temporal fields. We have identified one such linked mode of sea surface temperature (SST) variability which plays a crucial role in determining the nature of El Nino event. The corresponding Atlantic SSTs illustrate strong coastal variations along a portion of the coastline of NWA. Thus our analysis identifies the sensitivity of this coastal upwelling system to the diversity of El Nino, and effectively isolates the mode of linked variability.
+The El Niño Southern Oscillation (ENSO) is known to influence global atmospheric and oceanic conditions through teleconnection effects. In this analysis, we have analysed the teleconnection between ENSO and the North West African (NWA) coastal upwelling system. Coastal upwelling systems, characterised by the upward flow of cool nutrient-rich waters from the deeper ocean to its surface, are hotspots of biological activity and crucial for ocean productivity. Our analysis relied on a method called the complex rotated maximum covariance analysis which identifies covariation between two spatio-temporal fields. We have identified a linked mode of sea surface temperature (SST) variability which plays a crucial role in determining the nature of El Niño event. The corresponding Atlantic SSTs illustrate strong coastal variations along a portion of the coastline of NWA. Thus our analysis identifies the sensitivity of this coastal upwelling system to the diversity of El Niño, and effectively  solates the mode of linked variability.
 </div>
 
 ---

scholar-outputs/2023/project5.md

@@ -0,0 +1,14 @@
+# Assessment of fire events in Argentinian Andean-Patagonian Forests between 2002-2020
+
+Team "Tyrannosaurus Tango Dolce"
+
+**Franco Barrionuevo**, **Raphael Rocha**, **Cristian Farfan**, **Ricardo Rengifo**, **Luciana Rojas**
+
+Mentor: **Brittany Engle**
+
+<div style="text-align: justify">
+The Argentinian Andean-Patagonian Forest (AAPF) is a highly biodiverse temperate forest in South America. This area is being threatened by the intensification of climatic conditions that favor the occurrence of fires. However, assessing AAPF fire events is challenging due to a high climatological and geographic variability. Previous analyses were focused on smaller regions and did not consider the north-south distribution of fires. In this study, satellite-derived data was used to analyze burned areas in AAPF during the 2001-2020 period, and explained its variability in the north-south direction. Two key areas impacted by fires were identified, highlighting the northern AAPF as the most affected region. The study revealed the intricate relationship between fires and climatic and geographic variability. This assessment serves as a basis for future research on climate change impacts and fire risk prediction in AAPF, emphasizing the need for informed conservation strategies in this ecologically important region.
+</div>
+
+---
+The full micropublication will be shared here at the end of March 2024.

scholar-outputs/2023/project7.md

@@ -1,8 +1,16 @@
-# Impact of Deforestation and Multi-year Cyclical Processes on Precipitation Patterns and Cereal Production in Congo River Basin
+# Oceanic oscillations and Congo River Basin climatology
 
 Team "Fortepiano, Hesperosaurus_bon"
 
-**James Hartzell**, **Magda Altman**, **Pratik Bhandari**, **Lorenzo Pierini**, **Masoumeh Bahri**, **Rajiv Kumar Srivastava**, **Jeffrey N.A. Ayree**
+**James Hartzell**, **Magda Altman**, **Rajiv Srivastava**, **Jeffrey N.A. Ayree**, **Pratik Bhandari**, **Lorenzo Pierini**, **Masoumeh Bahri**
 
 Mentor: **Surajit Deb Barma**
 
+```{figure} project7_summary.png
+---
+width: 100%
+---
+A graphical summary of the project
+```
+---
+The full micropublication will be shared here at the end of March 2024.

scholar-outputs/2023/project8.md

@@ -2,7 +2,7 @@
 
 Team "Saurophaganax_Popping_forte"
 
-**Jesús Pozo**, **Andrea Miranda**, **Sergei Nabatov**, **Alethia Kielbasa**, **Abdus Samad**
+**Jesús Pozo**, **Andrea Miranda**, **Sergei Nabatov**, **Alethia Kielbasa**, **Abdus Samad**, **Benedetta Francesconi**
 
 Mentor: **Surajit Deb Barma**