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1475LandScales - Connecting processes and structures driving the landscape carbon dynamics over scalesLandScales – Connecting processes and structures driving the landscape carbon dynamics over scales 01.01.2012 00:00:0031.05.2016 00:00:00abgeschlossencompletedInst. für LandschaftsbiogeochemieInst. of Landscape Biogeochemistryx6xHoffmann, Carsten; Kayler, Zachary; Geßler, Arthur; Premke, Katrin; Cardoso Lisboa, Carolina; Nitzsche, Kai; Jaconi, Angelica; Yague Gómez , Rubén; Taube, Robertx509x1010x1085x1208x1492x1551x1563x1710x1725x<div class='ntm_LBG'>LBG</div> <a href="http://www.landscales.de">http://www.landscales.de</a><BR />2012 LandScales - Connecting processes and structures driving the landscape carbon dynamics over scales LandScales – Connecting processes and structures driving the landscape carbon dynamics over scales Inst. für Landschaftsbiogeochemie Hoffmann, Carsten; Kayler, Zachary; Geßler, Arthur; Premke, Katrin; Cardoso Lisboa, Carolina; Nitzsche, Kai; Jaconi, Angelica; Yague Gómez , Rubén; Taube, Robert Drittmittel Inst. of Landscape Biogeochemistry completed abgeschlossen <div class="ExternalClassFF955B3D-1C15-422F-A3CA-DF45221BE6DD"><ul><li>2015 Landschaftsprozesse</li></ul></div> <div class="ExternalClassA32C85B9-161E-456C-A7BC-E11FC17484EC"></div> <div class="ExternalClass3A3933CC-FADC-4E1A-8EA7-C8B4C53D4D1C"></div> <div class="ExternalClass8AC6B722-77BA-42B6-AFA8-16364BE98EF7"></div> <div class="ExternalClass71425736-0326-4D3F-9777-AF7FD27F4015"></div><div class="ExternalClassFB3C51806268471D9EAA6D609E5021BB"><p>?<span style="font-family&#58;arial,verdana,helvetica,sans-serif;text-align&#58;justify;line-height&#58;normal;">LandScales integrates the aquatic and terrestrial perspectives of landscape carbon (C) dynamics within a multidisciplinary international collaborative research environment, by characterising relevant structures, processes, and fluxes across scales.The central goal is to characterise C sequestration and release in a moraine landscape representative of the globally widespread landscapes of glacial origin. A major point is the&#160;</span><span style="font-family&#58;arial,verdana,helvetica,sans-serif;font-weight&#58;bold;text-align&#58;justify;line-height&#58;normal;">scaling</span><span style="font-family&#58;arial,verdana,helvetica,sans-serif;text-align&#58;justify;line-height&#58;normal;">&#160;of C fluxes and their underlying mechanisms from the plot to the landscape level by accounting for spatio-temporal heterogeneity of structures and functions, and to address the uncertainties of scaling approaches. To achieve a linkage between aquatic and terrestrial systems and bridging of scales, the project is divided into three&#160;</span><span style="font-family&#58;arial,verdana,helvetica,sans-serif;font-weight&#58;bold;text-align&#58;justify;line-height&#58;normal;">Research Topics (RT)</span><span style="font-family&#58;arial,verdana,helvetica,sans-serif;text-align&#58;justify;line-height&#58;normal;">&#58; processes and mechanisms (RT1), C-fluxes (RT2) and landscape structures and dynamics (RT3). All RT’s are part of a</span><span style="font-family&#58;arial,verdana,helvetica,sans-serif;font-weight&#58;bold;text-align&#58;justify;line-height&#58;normal;">Research Platform&#160;</span><span style="font-family&#58;arial,verdana,helvetica,sans-serif;font-weight&#58;bold;text-align&#58;justify;line-height&#58;normal;"><em>(RP)</em></span><span style="font-family&#58;arial,verdana,helvetica,sans-serif;text-align&#58;justify;line-height&#58;normal;">&#160;and the supporting&#160;</span><span style="font-family&#58;arial,verdana,helvetica,sans-serif;font-weight&#58;bold;text-align&#58;justify;line-height&#58;normal;">Infrastructural Platform&#160;</span><span style="font-family&#58;arial,verdana,helvetica,sans-serif;font-weight&#58;bold;text-align&#58;justify;line-height&#58;normal;"><em>(IP)</em></span><span style="font-family&#58;arial,verdana,helvetica,sans-serif;text-align&#58;justify;line-height&#58;normal;">. Each RT includes assessments of terrestrial and aquatic systems in a moraine landscape in NE Germany. Within an overarching Research Topic (RT4) the uncertainty in scaling processes and structures from the plot to the landscape level is characterised. The exploration of the mechanistic basis of C fluxes at the landscape scale allows for the prediction of C dynamics as a function of variation in climatic and land use conditions. These objectives are vital for optimising the management of C sequestration at the landscape scale and, thus, are important to sustaining an important ecosystem service for society.?</span></p></div><div class="ExternalClass20B76C3B01834820B45B40AC13E3C26A"><p>?<span style="font-family&#58;arial,verdana,helvetica,sans-serif;text-align&#58;justify;line-height&#58;normal;">LandScales integrates the aquatic and terrestrial perspectives of landscape carbon (C) dynamics within a multidisciplinary international collaborative research environment, by characterising relevant structures, processes, and fluxes across scales.</span><span style="font-family&#58;arial,verdana,helvetica,sans-serif;font-weight&#58;bold;text-align&#58;justify;line-height&#58;normal;">&#160;</span><span style="font-family&#58;arial,verdana,helvetica,sans-serif;text-align&#58;justify;line-height&#58;normal;">The central goal is to characterise C sequestration and release in a moraine landscape representative of the globally widespread landscapes of glacial origin. A major point is the&#160;</span><span style="font-family&#58;arial,verdana,helvetica,sans-serif;font-weight&#58;bold;text-align&#58;justify;line-height&#58;normal;">scaling</span><span style="font-family&#58;arial,verdana,helvetica,sans-serif;text-align&#58;justify;line-height&#58;normal;">&#160;of C fluxes and their underlying mechanisms from the plot to the landscape level by accounting for spatio-temporal heterogeneity of structures and functions, and to address the uncertainties of scaling approaches. To achieve a linkage between aquatic and terrestrial systems and bridging of scales, the project is divided into three&#160;</span><span style="font-family&#58;arial,verdana,helvetica,sans-serif;font-weight&#58;bold;text-align&#58;justify;line-height&#58;normal;">Research Topics (RT)</span><span style="font-family&#58;arial,verdana,helvetica,sans-serif;text-align&#58;justify;line-height&#58;normal;">&#58; processes and mechanisms (RT1), C-fluxes (RT2) and landscape structures and dynamics (RT3). All RT’s are part of a</span><span style="font-family&#58;arial,verdana,helvetica,sans-serif;font-weight&#58;bold;text-align&#58;justify;line-height&#58;normal;">Research Platform&#160;</span><span style="font-family&#58;arial,verdana,helvetica,sans-serif;font-weight&#58;bold;text-align&#58;justify;line-height&#58;normal;"><em>(RP)</em></span><span style="font-family&#58;arial,verdana,helvetica,sans-serif;text-align&#58;justify;line-height&#58;normal;">&#160;and the supporting&#160;</span><span style="font-family&#58;arial,verdana,helvetica,sans-serif;font-weight&#58;bold;text-align&#58;justify;line-height&#58;normal;">Infrastructural Platform&#160;</span><span style="font-family&#58;arial,verdana,helvetica,sans-serif;font-weight&#58;bold;text-align&#58;justify;line-height&#58;normal;"><em>(IP)</em></span><span style="font-family&#58;arial,verdana,helvetica,sans-serif;text-align&#58;justify;line-height&#58;normal;">. Each RT includes assessments of terrestrial and aquatic systems in a moraine landscape in NE Germany. Within an overarching Research Topic (RT4) the uncertainty in scaling processes and structures from the plot to the landscape level is characterised. The exploration of the mechanistic basis of C fluxes at the landscape scale allows for the prediction of C dynamics as a function of variation in climatic and land use conditions. These objectives are vital for optimising the management of C sequestration at the landscape scale and, thus, are important to sustaining an important ecosystem service for society.</span></p></div><div class="ExternalClass12935B99-5928-49A7-B67C-0FAA02B37968"><ul><li>Inst. für Landschaftsbiogeochemie</li></ul></div><div class="ExternalClass44D41288-FFF9-4AC5-8CB0-5187B49AE6FB"><ul><li>Inst. of Landscape Biogeochemistry</li></ul></div><div class="ExternalClassDB08F181-82D3-42E0-88C8-B359E43F0737">Ph.D. Carolina Cardoso Lisboa; Prof. Dr. Arthur Geßler; Dr. Carsten Hoffmann; Angelica Jaconi; Dr. Zachary Kayler; Kai Nitzsche; Dr. Katrin Premke; Robert Taube; Rubén Yague Gómez </div>Geßler, Arthur;Premke, Katrin<div class="ExternalClass013346C9-7A14-48F9-8698-CF8E6285BE94"><a title="e-mail" target="_blank" href="mailto:Arthur.Gessler@zalf.de">Prof. Dr. Arthur Geßler; </a><a title="e-mail" target="_blank" href="mailto:Katrin.Premke@zalf.de">Dr. Katrin Premke</a></div><div class="ExternalClassFF955B3D-1C15-422F-A3CA-DF45221BE6DD"><ul><li>2015 Landschaftsprozesse</li></ul></div><div class="ExternalClassE374CA82-8F1C-47B9-994B-1B6826861C4F"><ul><li>2015 Landscape Functioning</li></ul></div>x256x       33 
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