Mehvish Majeed
I am a passionate forester from Pakistan who is concerned about Climate Change and its impact on our ecosystem. I am studying masters program - Sustainable Tropical Forestry (SUTROFOR) with Erasmus Mundus Scholarship at University of Copenhagen, Denmark first year and Technical University of Dresden, Germnay second year. Currently, i am working on my Masters thesis: Dendrochronological study on Pinus roxburghii growth ressilience with changing climate conditions in lesser Himalyas, Pakistan. I am looking forward to learn more about Dendrochronology and its contribution in growth resilience study with experts at the conference.
Sessions in which Mehvish Majeed participates
Wednesday 29 June, 2022
In the last few decades, natural disturbances and human activities intensified the negative impact on the forest cover on a global scale. The impact of climate change on species distribution and structure, population dynamics, and growing conditions are more prominent now than ever before. To understand the impact of these extreme climate events on the forests, the tree growth resilience approach has been u...
Sessions in which Mehvish Majeed attends
Monday 27 June, 2022
Blue Intensity (BI) is a cost-effective analytical method for measuring relative wood density in the rings of conifer tree species. Since early concept papers in the 1990s/2000s, there has been a recent explosion in the application of this method for both dendroclimatology and historical dating as well as other dendro-disciplines. The beauty of BI is that the analytical costs, mainly related to the cost of a h...
MAIDENiso is a numerical process-based model that allows researchers to simulate the growth of a virtual tree. Using daily meteorological data, the model simulates the physical and physiological processes taking place in the tree and its environment, to produce daily and yearly outputs comparable to dendrological observations. The model has been adapted and used successfully in boreal regions in North America. In an inverse mode, tree-ring obs...
Free, in person and onlineThe stable isotopic compositions of carbon and oxygen (d13C and d18O) measured in tree rings are valuable proxies for reconstructing paleoclimate and are increasingly used as paleophysiological proxies. Applying these proxies in ecophysiology and paleoclimate can be challenging as they rely on complex process-based models and poorly constrained input data. In recent years, h...
Free, in person and onlineWe will hold a practical, skills-based workshop introducing openDendro -- an open-source framework of the base analytic software tools used in dendrochronology in both the R and Python programming languages. openDendro is a new unified set of tree-ring analysis tools in open-source environments that provides the necessary baseline for dendro...
Blue Intensity (BI) is a cost-effective analytical method for measuring relative wood density in the rings of conifer tree species. Since early concept papers in the 1990s/2000s, there has been a recent explosion in the application of this method for both dendroclimatology and historical dating as well as other dendro-disciplines. The beauty of BI is that the analytical costs, mainly related to the cost of a h...
Tuesday 28 June, 2022
Africa is faced with a number of challenges including climate change and ecological disturbance due to various anthropogenic activities. These problems adversely affect the forests and also ecosystem services. My appreciation for the forests motivated me to pursure my undergraduate studies in Forestry. I first applied dendrochronology during my PhD research which focused on understanding the climate change vulnerability of the Zambezi teak forests in Zambia. However, lack of research facil...
Wednesday 29 June, 2022
Information garnered from historical timbers and wooden artifacts (e.g. houses, barns, ships) can greatly enhance our understanding of human, ecological, and climate history, especially in regions where few old-growth forests and trees remain, tree longevity is relatively short (less than 300-400 years), and environmental conditions break down wood rather quickly, like in mesic to wet regions Over the last decade plus, the application of tree-ring techniques on woo...