The weather records in the early 20th century revealed the climatic history of Puerto Rico, which is located on the coast of Battonia, Argentine. These records are rare for the past, and introduced daily temperature, atmospheric pressure and humidity levels in detail. This discovery clarifies how the climate model develops for a century, and provides valuable insights to understand the current and future climate trends.
A recent study has excavated valuable historical weather data from Puerto Rico, Batamia, Argentina, and covered for ten years. The study was Professor of Susan Lakkis, the Argentine Pope University of Pope, and Professor Pablo Canziani and Adriányuchechen, Pablo Canziani and Adriányuchechen. Leading Adriányuchechen, the National University of Technology of Argentina. It published in the “News Magazine”, which carefully recovered and verified the daily measurement of the maximum, minimum and average temperature, atmospheric pressure and relative humidity.
The main motivation of this study is to enhance our understanding of historical climate variability and its long -term trends. Historical weather data is important for climate science because it provides a benchmark for background and verification of future climate forecasts. Madryn, located on the eastern coast of Batayonia, is an area affected by the mid -latitude west, making it an important place to study the climate model.
Dr. Lakkis and the team use internal coherence, tolerance and time -consistency testing for the quality of data. They found that although the temperature measurement value and the reconstruction value showed high consistency, there were some discontinuousness in the pressure and relative humidity data. The study emphasizes the importance of combining historical observations with modern analysis of products to improve climate data reliability.
One of the important discoveries of this study is the close correlation between historical temperature data and the re -analysis series of the 20th century, showing a very high consistency. This shows that the recovery temperature data accurately reflects the climate conditions in the early 20th century. However, the correlation between pressure and relative humidity is low, which indicates that these measurement values are a bit inconsistent.
The study also uses the Mann -Kendall test to evaluate the trend in the data. The results show that the annual research variable series does not have a significant trend, which is not consistent with the impact of climate change observed in the early 20th century. The study further analyzed the relationship between relative humidity and other variables and confirmed the inverse correlation with temperature, but there was no significant dependence on pressure.
All in all, this research provides a key insight for the climate in the region in the early 20th century. These findings help us understand the historical climate variability and provide a strong data set for future climate research. Dr. Lakkis said: “Our work emphasizes the importance of historical weather data in improving our understanding of climate mutation and long -term trends. By combining these observations with modern analysis of products, we can improve the accuracy of climate forecasting accuracy “Sex.” This study proves the potential of historical weather data to provide information for contemporary climate science, and emphasizes the necessity of continuing efforts in data rescue and verification.
Journal reference
Lakkis, SG, Canziani, PO, PO, & Yuchechen, AE’s unlocking weather in Madryn-Patagonia, Madryn-Patagonia, Argentine, 1902-1915. Climate, 2024. Doi: https: //doi.org/10.3390/cli12040052
About the author
Dr. Susan Lakkis Since 2015, he has a PhD degree from the University of Buenos Aires (2009) and has been a comprehensive study of the National University of Technology (UTN). Since 2015, it has been working in UNIDAD De RespendentDesiveacióndesrollo Para Lasingenierías (UIDI). In unidad derespendciónyDesiveAciónyDesryDesiveAciónyDesiveAcióny. Since 2006, she has also carried out research activities at the University of Pontificia (UCA) in Argentina. Her research work in the climate and dynamic field of stratum/flat stratum corporates, and the cloud dynamic, especially the Cirrus cloud, especially the Cirrus cloud, detects and track the cyclone system in the whirlwind system. Southern hemisphere, climate research in the application of climate adaptation, climate change and changes, extreme events and historical climate data. She published more than 30 research articles in the international peer review journal, and actively participated in teaching and human resources training, as well as several jury committees of the master’s and doctoral students.
