1<\/sup>University Of Plymouth, Plymouth, United Kingdom<\/em><\/p>\n Alluvial fans and rivers are key geomorphological components of Quaternary and older landscapes, linking uplands to offshore marine settings. The ubiquity of their morphological expression and sediment archives offers considerable potential for exploring landscape development and its drivers of environmental change (climate, tectonics etc) across Quaternary (and longer) time. In mountainous areas, rivers and fans occur as terraced landforms configured into staircase sequences. These record surface uplift and climate-linked denudation, informing on base-level fall linked to drainage network configuration change. Climate-related river-fan terrace sedimentation gives insight into local environment changes (tributary vs trunk rivers), sediment supply-sourcing-routing and flood discharge, with variable coupling to hillslopes and glaciated uppermost catchment regions. In downstream, lowland areas, spatially extensive river and megafan \/ distributive fluvial systems develop thick sediment-soil sequences, providing high resolution records across longer and deeper Quaternary time. In this session, we invite researchers studying any aspect of river \/ fan landform and sediment archives that informs on longer term Quaternary landscape development (i.e. Pleistocene). We welcome studies applying geochronology (luminescence \/ ESR \/ cosmogenic, etc) alongside novel and integrated applications of remote sensing, geomorphology, neotectonics, climatology, stratigraphy, sedimentology, pedology, provenance, paleohydrology and archaeology.<\/p>\n Dr Anya Leenman1<\/sup>, Dr Sam Woor2<\/sup>, Prof. Andy Russell3<\/sup>, Dr Anastasia Piliouras4<\/sup><\/strong><\/p>\n 1<\/sup>Te Herenga Waka – Victoria University Of Wellington, Wellington, New Zealand, 2<\/sup>University of British Columbia \/ University of the Fraser Valley, Vancouver, Canada, 3<\/sup>Newcastle University, Newcastle-upon-Tyne, United Kingdom, 4<\/sup>Pennsylvania State University, State College, USA<\/em><\/p>\n As rivers carry sediment from mountains to coasts, they intermittently store material in outwash plains, alluvial fans and deltas. Global changes to anthropogenic settlement, sea levels, sediment flux and hydrology (e.g. changing frequency and rheology of extreme floods) have diverse impacts across these systems. Moreover, their morphology and sedimentology encodes information about the processes that shape them. This session will explore the dynamics and forms of distributary landforms and the channel networks upon them. We welcome contributions using fieldwork, experiments, numerical modelling or remote sensing to explore the history, dynamics or vulnerability of these geomorphic systems across climates, scales, and planets.<\/p>\n Dr Brooke Hunter3<\/sup>, Dr Andre Eger4<\/sup>, Assoc. Prof. Peter Almond1<\/sup>, Prof. Josh Roering2<\/sup><\/strong><\/p>\n 1<\/sup>Lincoln University, Lincoln, New Zealand, 2<\/sup>University of Oregon, Eugene, USA, 3<\/sup>Yale University, New Haven, USA, 4<\/sup>Manaaki Whenua-Landcare Research, Lincoln, New Zealand<\/em><\/p>\n This session will explore how earth surface processes and the chemistry, physical conditions and fluid flow in the critical zone modulate the fluxes of carbon over a range of time and spatial scales. Geomorphological processes, the tempo of landscape change and climate have a strong influence on the storage, turnover time and fluxes of inorganic and organic C, all of which are significant for global climate as well as soil and ecosystem functions.<\/p>\n This session will consider processes significant to C fluxes and storage, within unmodified to highly human-modified systems, over a range of timescales and using a wide array of tools and approaches. We invite contributions related, but not limited, to:<\/p>\n Dr Matej Lipar1<\/sup>, Dr John Webb2<\/sup>, Dr Mateja Ferk1<\/sup>, Dr Susan White2<\/sup>, Dr Adrian Slee3<\/sup><\/strong><\/p>\n 1<\/sup>Anton Melik Geographical Institute, Research Centre of the Slovenian Academy of Sciences and Arts (ZRC SAZU), Ljubljana, Slovenia, 2<\/sup>Discipline of Ecology and Environment, La Trobe University, Melbourne, Australia, 3<\/sup>Forest Practices Authority, Hobart, Australia<\/em><\/p>\n Karst landscapes are fundamentally shaped by the dissolution of rock, with interactions among lithological, hydrological, and climatic factors driving the formation of a diverse array of surface and subsurface landforms. This session aims to explore the global geodiversity of karst and its role as a record of environmental processes and changes. By examining a wide variety of karst types, including those in lowland plains, mountainous regions, islands, coastal zones, and high-altitude plateaus, the session seeks to connect the study of karst geomorphology with broader environmental dynamics. The focus extends to karst environments across diverse climatic zones-temperate, tropical, arid, and polar-emphasising how these systems are shaped by their unique geological and environmental contexts. Special attention is given to how karst systems reveal past climatic conditions, elucidate long-term climate variability, and demonstrate environmental responses to change. Contributions that integrate interdisciplinary approaches, advance the understanding of karst environments, and address implications for conservation, resource management, and climate change impacts are particularly encouraged.<\/p>\n Francesca Vergari1<\/sup>, Manel Llena2<\/sup><\/strong>, Mauro Rossi3<\/sup><\/strong>, Shuhua Fan4<\/sup><\/strong>, Fran Domazetovi\u01075<\/sup><\/strong>, Joseph Desloges6<\/sup><\/strong>, Anita Bernatek Jakiel7<\/sup><\/strong><\/p>\n 1<\/sup>Sapienza University of Rome, Italy<\/em>, 2<\/sup>University of Lleida, Spain<\/em>, 3<\/sup>CNR-IRPI, Italy<\/em>, 4<\/sup>Inner Mongolia Agricultural University, China<\/em>, 5<\/sup>University of Zadar, Croatia<\/em>, 6<\/sup>University of Toronto, Canada<\/em>, 7<\/sup>Jagiellonian University, Poland<\/em><\/p>\n Badlands are among the most spectacular and remarkable erosional landforms on the Earth. Badlands landscapes are characterized by intense geomorphic activity, with rapid erosional processes. Badlands areas pose significant environmental and management challenges, such as increased sediment transport, water turbidity, and extreme variations in biodiversity. Nonetheless, due to their uniqueness, these landscapes can serve as territorial and cultural assets, attracting geological and geotourism interest and potentially generating benefits for local communities and their administrations.<\/p>\n A variety of methods with different levels of complexity are available to map, measure and model these processes. However, there is no standardized protocol for assessing erosion dynamics. The choice of methods for investigating these landforms largely depends on physical factors such as the type, setting and scale of the studied badlands, but also on other factors, such as the research objectives, the structure and skills of research teams, and the availability of technical\/financial resources.<\/p>\n In this session, we aim to bring together research efforts addressing badlands’ dynamics, with an emphasis on new challenges in mapping, measuring and modelling the geomorphic processes that form and shape these unique landscapes. Specific topics of interest include: (i) developing standardized protocols for assessing and mapping different types of erosion processes acting on badlands (not only surface, but also subsurface processes), (ii) quantifying badlands’ evolution by applying various methods for erosion and deposition rate measurement, and (iii) modelling badlands’ geomorphic dynamics in natural and anthropized areas using state-of-the-art approaches.<\/p>\n Dr Matteo Del Soldato1<\/sup>, Dr Philipp Marr2<\/sup>, Prof Federico Raspini1<\/sup>, Prof Zheng-Yi Feng3<\/sup>, Dr Nicusor Necula4<\/sup>, Prof Yung-Chieh Wang3<\/sup>, Dr. Rachael Lau5<\/sup>, MSc Edoardo Carraro2<\/sup>, Prof. Thomas Glade2<\/sup><\/strong><\/p>\n 1<\/sup>Department of Earth Sciences, University of Firenze, Firenze, Italy, 2<\/sup>Department of Geography and Regional Research, University of Vienna, Vienna, Austria, 3<\/sup>Department of Soil and Water Conservation, National Chung Hsing University, Taichung, Taiwan, 4<\/sup>Faculty of Geography and Geology, Alexandru Ioan Cuza University of Iasi, Iasi, Romania, 5<\/sup>Civil and Environmental Engineering, Duke University, Durham, USA<\/em><\/p>\n The global increase in damaging landslide events has attracted the attention of governments, practitioners, and scientists who want to develop functional, reliable, and (when possible) low-cost investigation strategies for reducing the related risks and consequences. Landform identification and recognition play a fundamental role in landscape evolution analysis. Equally, landslide monitoring represents a key tool which increases the understanding of landslide dynamics and provides essential data to alert potentially affected communities. Numerous case studies have demonstrated how a well-planned monitoring system of landslides is of fundamental importance for long and short-term risk reduction. Sharing innovative methods into surface and subsurface dynamics can further advance the scientific understanding.<\/p>\n Today, the temporal evolution of a landslide is addressed in several ways, encompassing single or multiple, traditional or cutting-edge technologies, both ground-based and remote sensing data. The potential spectrum of monitoring applications includes different landslide types and their varying temporal characteristics (from rapid to slow-moving). Considering their complexity, a wide array of monitoring methods is currently available, ranging from traditional, well-established in-situ monitoring techniques (e.g. inclinometers, piezometers) to new and advanced technologies, including remote and close-range sensing (e.g. InSAR, TLS, and UAVs), hydrological (e.g. CRNS) and geophysical methods (e.g. ERT and EM), machine learning techniques and time-lapse surveys.<\/p>\n This session is inspired by general objectives of the International Consortium on Landslides: promote landslide research for benefit of society; integrate geosciences and technology within cultural and social contexts to evaluate landslide risk; combine and coordinate international expertise. Contributions may explore conceptual and methodological monitoring strategies, sensor networks, data management, data analysis for threshold detection and early-warning approaches in various temporal and spatial contexts. The session is expected to present case studies exploiting multi-temporal and multi-platform monitoring data for risk management and Civil Protection purposes. In this frame, inter- and trans-disciplinary innovative approaches are especially encouraged.<\/p>\n\t\t\t\t Surface and subsurface processes and landscape evolution Alluvial fans and rivers: landform archives of long-term landscape development and environmental change Dr Martin Stokes1, Dr Alberto Gomes, Professor Anne Mather 1University Of Plymouth, Plymouth, United Kingdom Alluvial fans and rivers are key geomorphological components of Quaternary and older landscapes, linking uplands to offshore marine settings. The…<\/p>\n","protected":false},"author":4,"featured_media":0,"parent":0,"menu_order":0,"comment_status":"closed","ping_status":"closed","template":"","meta":{"footnotes":""},"class_list":["post-2394","page","type-page","status-publish","hentry"],"yoast_head":"\n
\nDistributary landforms: past, present and future<\/h3>\n
\nEarth Surface Processes and Carbon Dynamics<\/h3>\n
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\nKarst geomorphology<\/h3>\n
\nNew frontiers in the study of erosion processes and geomorphic dynamics in badlands<\/h3>\n
\nState-of-the-art and new perspectives in long-term monitoring and analysis of landslide dynamics<\/h3>\n
![\"Terraces_4\"](\"https:\/\/www.confer.co.nz\/icg2026\/wp-content\/uploads\/2022\/09\/Terraces_4.jpg\" "\\"Terraces_4\\"")
\n\t\t\t\t![\"Taranaki\"](\"https:\/\/www.confer.co.nz\/icg2026\/wp-content\/uploads\/2022\/09\/Taranaki.jpg\" "\\"Taranaki\\"")
\n\t\t\t\t![\"Waikato_at_Taupo\"](\"https:\/\/www.confer.co.nz\/icg2026\/wp-content\/uploads\/2022\/09\/Waikato_at_Taupo.jpg\" "\\"Waikato_at_Taupo\\"")
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