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Tropentag is the largest interdisciplinary conference in Europe, focused on developmentoriented research in the fields of tropical and subtropical agriculture, food security, natural resource management and rural development. Tropentag takes place annually, even though the past two years were particularly challenging, while the conference had to be organised as an online only event. One of the lessons that we learnt from the virtual conferences is that yes, it is possible to organise it that way, but that it is much better to meet and talk in person. We are thus very happy that this year (two years after what was initially planned), we are able to organise the Tropentag 2022 conference at the campus of the Czech University of Life Sciences Prague, Czech Republic, and thrilled that we will again meet all face-to-face, during the 14-16 September venue. However, some of you, due to various reasons, who could not come to Prague, you can still participate at this year Tropentag, as all plenary and oral scientific sessions are streamed via the Whova platform, and we also organise several online poster sessions.
Tropentag is the largest interdisciplinary conference in Europe on developmentoriented research in the fields of tropical and subtropical agriculture, food security, natural resource management and rural development. Normally, the Tropentag takes place annually. However, for reasons that by now have become obvious, the past two years have been particularly challenging. We are therefore, delighted that the University of Hohenheim managed to host a hybrid version of the conference from 15𝑡ℎ to 17𝑡ℎ September 2021. Being a hybrid conference, it was pleasing to note that people did not only gather in one of the lecture theatres at the University of Hohenheim but also in one of the state-of-the art seminar rooms at the Czech University of Life Sciences in Prague. The rest, of course, attended via Zoom meetings being streamed on YouTube channels using the Whova online platform.
Tropentag is the largest interdisciplinary conference in Europe on development oriented research in the fields of sub-/tropical agriculture, food security, natural resource management and rural development. Taking place annually, Tropentag 2020 turned out to be a special challenge. Originally planned to take place in Prague, the Corona pandemic did not allow presence in or travel to Prague for prospective participants. ATSAF took on the challenge to organise a virtual Tropentag based on Zoom meetings being streamed on YouTube channels using the Whova as online conference platform from September 7 to 9, 2020.
Tropentag is the largest interdisciplinary conference in Europe focusing on development- oriented research in the fields of tropical and subtropical agriculture, food security, natural resource management and rural development. It is clear that a just and sustainable transformation of our food systems is urgently needed: climate change, conflicts, rising food and fuel prices, and growing social and income inequalities are exacerbating the vulnerabilities of our food systems. The theme invites diverse contributions that explore different pathways for transforming food systems and the trade-offs and synergies involved, ranging from more technical solutions, such as climate-smart agriculture and biofortified crops, to more systematic solutions for changing the underlying relationships of our food systems, such as agroecology and alternative food networks.
Foodborne diseases (FBD) are an important externality of agriculture and food systems, but only recently have they risen up the development agenda as the result of growing awareness of the health and economic burdens of FBD and how they relate to food systems with a focus on low-income and middle-income countries (LMIC), particularly African nations. The health burden of FBD is comparable with that of malaria, and over 90% falls on people in LMIC, with an economic burden of more than US$100 million per year. FBD have many other, less well-estimated effects on nutrition, gender, equity, and the environment. While understanding of food safety in domestic markets of LMICs has advanced greatly, risk management is in its infancy. This Research Topic will bring together leading regional perspectives on food safety in LMICs.
Ever-increasing population growth, combined with ongoing climate change signals that agriculture will face great challenges in ensuring global food security by 2050. Additionally, climate change-driven variations in mean sea level, wave conditions, storm surge, droughts, and river flows could have serious effects on agriculture and other sectors. Considering these factors and the extremely high value and necessity of agriculture worldwide, effective adaptation measures underpinned by reliable climate change impact assessments are essential to conserve soil and water resources and ensure food security. Sustainable Agriculture: Adaptation Strategies to Address Climate Change by 2050 provides a thorough examination of these issues, and presents in-depth analysis, practical case studies, and numerous examples of adaptation options throughout for various regions of the world. Features: Presents up-to-date, scientifically robust information on climate change projections in Europe, Asia, America, Africa, and Australia Provides pathways to sustainable agricultural options rather than just defining the climate change issue Includes case studies and practical examples throughout the world Presents a framework by which policymakers can begin implementing strategies for improving agricultural productivity
Bringing together a wealth of knowledge, the Handbook of Environmental Management, Second Edition, gives a comprehensive overview of environmental problems, their sources, their assessment, and their solutions. Through in-depth entries, and a topical table of contents, readers will quickly find answers to questions about pollution and management issues. This six-volume set is a reimagining of the award-winning Encyclopedia of Environmental Management, published in 2013, and features insights from more than 500 contributors, all experts in their fields. The experience, evidence, methods, and models used in studying environmental management is presented here in six stand-alone volumes, arranged along the major environmental systems. Features of the new edition: The first handbook that demonstrates the key processes and provisions for enhancing environmental management. Addresses new and cutting -edge topics on ecosystem services, resilience, sustainability, food-energy-water nexus, socio-ecological systems and more. Provides an excellent basic knowledge on environmental systems, explains how these systems function and offers strategies on how to best manage them. Includes the most important problems and solutions facing environmental management today.
Tropentag is the largest interdisciplinary conference in Europe on research in sub-/tropical agriculture, food security, natural resource management and rural development. Taking place annually, Tropentag 2019 is jointly organised by the Centre for International Rural Development at the University of Kassel and the Centre of Biodiversity and Sustainable Land Use at the University of Göttingen, and takes place at the University of Kassel's main campus from 18 to 20 September 2019.
The sexiest lowland forests in Papua Indonesia, hosting many high-valued timber species, attract the country’s authorities to allocate 94% as production forests. The main aim is to manage the forests sustainably under a concessionaire system strongly requiring sustainable-sense protocols stated in the national silviculture system-TPTI. However, in many cases, the logging activities in the tropics fail to perform sustainability in production and ecological integrity due to unavoidable high harvesting intensity adopted in uniform cutting protocols. Therefore, comprehending an intact forest’s local-specific features helps develop an adaptable silviculture technique. The book elaborates on 143 species identified in two logging concessions of Papua and explains significant differences in the distinct primary forests formed by the species. It also reveals the individuals and species of commercial timbers left after logging. Furthermore, it presentably discusses the current logging impacts potentially changing the species’ relative abundance, downgrading the future degree of tree diversity and causing a massive timber volume reduction that fizzles out to enter the third cycle. Additionally, the state-of-the-art method of relating species’ slope structure with its sapwood content of δ15N and N is conceptually explained to classify 103 species by light-requirement trait. Therefore, it is a critical indicator for species selection in the enrichment planting of pre-grown seedlings and subsequent tending. Ultimately, including a combination of species-specific minimum cutting diameter in TPTI with the consequence of enlarging the concession area becomes the ambitious goal of this work.
Researchers and policy planners are in search of a solution to address the twin challenges of maximizing agricultural production while maintaining/ improving ecosystem sustainability. Enhancing farm productivity is needed in certain regions of the world to satisfy local food consumption and farmers' needs. Linear economy-based-input intensive conventional agriculture (CAPS) has increased production output but has not made agriculture more sustainable. Henceforth, a farming system that aims to reduce the adverse impact on the environment, as well as enhance agricultural productivity by reducing environmental footprint and improving soil health and economic wellbeing is needed in the present day. Integrated organic farming systems (IOFS) involve residue recycling, bio-intensive cropping, high-tech horticulture, mushroom, dairy, poultry, fishery, apiary, etc can improve the ecosystem health and augment the income and livelihood security of the growers. Worldwide, IOFS are gaining popularity due to improved ecosystem services and improving farm productivity and livelihood security. Hence, IOFS- a circular economy-based (reuse-recycle-repair) agricultural production system can be alternatives to energy-intensive inputs based on CAPS. Hence, there is an urgent need to select suitable IOFS models with proper resource optimization for productivity maximization and better ecosystem sustainability. Undoubtedly IOFS reduces energy use from synthetic agrochemicals but food production in IOFS is highly dependent on fossil fuel energy that must be addressed urgently. Despite the enormous positive outlooks, there are several challenges in the adoption of IOFS models. The IOFS is a multiproduct-oriented production system that needs multi specialties and marketing. Capacity building and infrastructure development are also great challenges in adopting IOFS. Moreover, the development of IOFS models is highly individualistic, and location-specific production systems need proper resource optimization and characterization. Hence, the development of site-specific IOFS models to maintain food quality with productivity improvement is a genuine issue to the researchers, which needs to be addressed. Papers (original research/review/letter to the editors) spanning across the discipline related to the IOFS development in sustainable ways are encouraged for inclusion in this research topic. Papers should explicitly cover ecosystem restoration, farm productivity, and profitability and could have a specific focus on the following areas: -the IOFS models for enhancing productivity and environmental quality through an integrated management approach aiming at the maximization of use efficiencies -the management of biomass waste to restore the soil fertility, and ecosystem services the effect of integrated management practices on greenhouse gas emissions and energy use -Critical approaches for climate-smart food production systems