Zweitveröffentlichung
Refine
Year of publication
Document Type
- Article (167)
- Conference Proceeding (29)
- Other (15)
- Report (4)
- Book (3)
- Working Paper (3)
- Part of a Book (2)
- Contribution to a Periodical (2)
- Postprint (2)
- Part of Periodical (1)
Has Fulltext
- yes (229)
Is part of the Bibliography
- yes (229)
Keywords
- TMT (4)
- agroforestry (4)
- climate change (4)
- sustainability (4)
- Biodiversity (3)
- Central Asia (3)
- UAV (3)
- biodiversity (3)
- ecosystem services (3)
- sustainable development (3)
Institute
- Fachbereich Wald und Umwelt (88)
- Fachbereich Landschaftsnutzung und Naturschutz (59)
- Fachbereich Holzingenieurwesen (29)
- Centre for Econics and Ecosystem Management (18)
- Biosphere Reserves Institute (14)
- Forschungszentrum [Nachhaltigkeit - Transformation - Transfer] (14)
- Zentrale Hochschuleinrichtungen (8)
- Fachbereich Nachhaltige Wirtschaft (4)
- ZENAT (2)
- Nachhaltiges Tourismusmanagement M.A. (1)
This document provides a summary of the situation analysis and the diagnosis. It is the cumulative result of the findings, discussions, and excursions during a. the citizen workshops b. GIS-based analysis and mapping c. MARISCO (adaptive MAnagement of vulnerability and RISk at COnservation sites) expert workshops d. EbA training3 and recent developments since these events.
This document provides a summary of the situation analysis and the diagnosis. It is the cumulative result of the findings, discussions, and excursions during a. the citizen workshops b. GIS-based analysis and mapping c. MARISCO (adaptive MAnagement of vulnerability and RISk at COnservation sites) expert workshops d. EbA training3 and recent developments since these events.
Der Erhalt der Biodiversität und intakter Ökosysteme ist überlebenswichtig für Mensch und Natur. Dennoch schreitet der Verlust von Biodiversität sowohl in Deutschland – dem Fokus dieses Papiers – wie auch weltweit dramatisch voran. Die Politik hinkt dem zunehmenden Handlungsdruck allerdings weit hinterher. Bestehende Verpflichtungen wurden bisher nicht erfüllt, gesteckte Ziele nicht erreicht. Daher muss die neue Bundesregierung Verantwortung übernehmen und die Ursachen für den Verlust der Biodiversität, die in verschiedenen Politikfeldern liegen, bereits im Koalitionsvertrag adressieren. Der wirksame Schutz von Biodiversität kann nicht alleine mit der Ausweisung von Schutzgebieten erreicht werden, sondern ist eine Integrationsaufgabe. Die Adressaten dieses Textes sind daher politische Akteure, die Biodiversitätsziele in ihren Verantwortungsbereichen (Ressorts) und in allen relevanten Strategien integrieren sowie die relevanten Stakeholder mitnehmen müssen.
Die hier beitragenden und zeichnenden Wissenschaftler*innen aus unterschiedlichsten Disziplinen werben gemeinsam für ein deutlich größeres Engagement für Biodiversität und legen hierfür die folgenden
Handlungsempfehlungen für deutsche und europäische Politik vor. Sie appellieren an die politischen Verantwortungsträger*innen, diese vielfältigen Herausforderungen entschlossen anzugehen und unsere natürlichen Lebensgrundlagen wirkungsvoll zu schützen.
In social-ecological systems, natural resource management can be characterized by trade-offs across sectors and sustainability targets. The water-energy-food (WEF) nexus concept makes explicit various trade-offs in order to maximize synergies of interventions. However, there are few successful examples of its operationalization in research settings. Here, we explore in a learning setting if sustainability impact assessment (SIA) protocols can be a useful process to be used to adopt a systemic, interdisciplinary perspective to operationalize WEF nexus in research for sustainable development. The process and method adopted of SIA protocol, evaluated for five exemplary WEF nexus cases in Central Asia during a week-long international workshop, adequately addressed the complexity of WEF interrelationships and associated sustainability issues, and facilitated a comparative case study analysis across scales. Results within this process highlight that water governance was critical for large-scale transboundary WEF nexus management, while land and soil management were decisive for minimizing trade-offs at local levels. Issues of interdisciplinarity, complexity, uncertainty, and reflection on impacts were adequately addressed, but challenges remain in the consideration of ethics and the design of transparent, multi-actor cooperation. Most importantly, this exercise showed that employment of the process of SIA protocol supported disciplinary experts to work across disciplines and take a systemic approach for analyzing WEF nexus.
Across Central Asia, agriculture largely depends on irrigation due to arid and semi-arid climatic conditions. Water is abstracted from rivers, which are largely fed by glacier melt. In the course of climate change, glaciers melt down so that a reduced glacier volume and reduced water runoffs are expected to be available for irrigation. Tree wind breaks are one option to reduce water consumption in irrigated agriculture and build resilience against climate change. This paper therefore assesses the water consumption of major crops in Kyrgyzstan and adjacent areas, i.e., cotton (Gossypium hirsutum L.), wheat (Triticum aestivum L.), corn (Zea mays L.), rice (Oryza sativa L.), potato (Solanum tuberosum L.), and barley (Hordeum vulgare L.) in combination with tree wind breaks. Crop water consumption was assessed through the Penman Monteith approach. Tree wind break types investigated were single rows from poplars (Populus spec.) and multiple rows with understory vegetation by elm (Ulmus minor L.) and poplar, respectively. Tree water consumption was determined through sapflow measurements. The seasonal reference evapotranspiration (ETo) for field crops was 876–995 mm without wind breaks and dropped to less than half through multiple row wind breaks with understory vegetation (50 m spacing). Tree water consumption was 1125–1558 mm for poplar and 435 mm for elm. Among the wind break crop systems, elm wind breaks resulted in the highest reductions of water consumption, followed by single row poplars, at spacing of 50 and 100 m, respectively. However, elm grows much slower than poplar, so poplars might be more attractive for farmers. Furthermore, single row wind breaks might by much easier to be integrated into the agrarian landscape as they consume less space.
Multi-scenario dynamic prediction of ecological risk assessment in an arid area of northwest China
(2023)
Ecological security is essential for the development of environmental health and human society. However, the driving mechanisms and spatial non-stationarity of ecological risks are still unknown, particularly in arid areas. Thus, this study constructed an ecological risk index (ERI) research framework in arid areas based on land use and socio-economic data from 1980 to 2020 to investigate the spatiotemporal evolution trend, driving mechanisms, and spatial non-stationarity of ecological risk and predict the ecological risk under business-as-usual, economic development, and ecological protection scenarios using a patch-generating land use simulation (PLUS) model. The results show that: (1) cropland and build-up land were expanding, whereas forestland and grassland water bodies were shrinking. Compared with the two development stages from 1980 to 2000 and from 2000 to 2020, cropland increased by 4.73% and 51.52%, respectively, whereas build-up land increased by 12.64% and 106.52%, respectively, indicating rapid development and drastic changes in the past 20 years. (2) With the change in landscape diversity, the regional ecological risks showed an increasing trend, whereas the future ecological risks showed an increasing trend because of the cumulative effect of landscape pattern changes caused by human activities. (3) Moreover, dramatic changes in ecological risk, particularly in areas of intense human activity in build-up land, agricultural land, artificial oases, and mountainous areas. Corresponding to the analysis of driving mechanisms, population, GDP, distance to government, water, and primary roads; have a significant effect on ecological risk, whereas DEM has direct and indirect effect paths. Ultimately, the proposed analysis framework can present the spatiotemporal changes of ecological risks and their influencing mechanisms, which can help develop sustainable development policies.
Forschungsdatenmanagement (FDM) gewinnt an den Hochschulen in Brandenburg eine immer größere Bedeutung. Für den Aufbau und die Institutionalisierung eines nachhaltigen FDM an den brandenburgischen Hochschulen ist eine möglichst genaue Ermittlung des aktuellen Kenntnisstandes der Forschenden und deren Bedarfe bezüglich des Umgangs mit Forschungsdaten erforderlich. Hierzu diente die Bedarfserhebung, die im Rahmen des vom BMBF und dem MWFK geförderten Projekts IN-FDM-BB durchgeführt wurde. Beteiligt an der brandenburgweiten Umfrage waren alle acht staatlichen forschenden Hochschulen: vier Universitäten (die Brandenburgische Technische Universität Cottbus – Senftenberg (BTU), die Filmuniversität Babelsberg KONRAD WOLF (FB), die Europa-Universität Viadrina Frankfurt (Oder) (EUV) und die Universität Potsdam (UP)) und vier Hochschulen für Angewandte Wissenschaften (die Fachhochschule Potsdam (FHP), die Hochschule für nachhaltige Entwicklung Eberswalde (HNEE), die Technische Hochschule Brandenburg (THB) und die Technische Hochschule Wildau (THW)). Die Hochschulen unterscheiden sich erheblich in ihrer Größe und fachlichen Ausrichtung. So hat die UP deutlich über 20.000 Studierende und über 1.900 Professor*innen und akademische Mitarbeiter*innen, die FB hingegen, weniger als 1.000 Studierende und ca. 140 Professor*innen und akademische Mitarbeiter*innen. Landesweit sind fast alle Fachdisziplinen vertreten, jedoch mit unterschiedlichen Schwerpunkten je Hochschule.
Das Ziel der Bedarfserhebung war, den Kenntnisstand bezüglich des professionellen Umgangs mit Forschungsdaten der Forschenden an den einzelnen Hochschulen zu ermitteln, FDM-Bedarfe zu erkennen und daraus mögliche FDM-Aktivitäten für die jeweilige Hochschule abzuleiten. Die Bedarfserhebung richtete sich daher in erster Linie an die Forschenden der jeweiligen Hochschule.
Academic data stewardship at universities has to fulfil many different roles. One of the most important is to build up a connection to researchers and bridge the gap between research data infrastructure and researchers. Different scientific communities have different requirements for research data management and expectations regarding text and data publication. In many of the sub-disciplines of engineering sciences, research data management practices are not established so far. When it comes to contact between data stewards and researchers, a common knowledge base has to be established to become clear about why and what actions for research data management has to take, that engineering researchers can adapt them for their research data management practices. Many research data management standards have to take into consideration. However, to this point of time, the research data management community lacks for data literacy graphics to explain how the technical data management ecosystem works together with standards like the findability, accessibility, interoperability and reuse (FAIR) principles. Therefore, we developed a graphic for data literacy and consulting scenarios.
This is a data management plan for the DFG research project "Predictability of color changes of wood used indoor - A new approach to evaluate the color change as a function of the radiation dose". DFG Funding code / Project number: 442135169
Project website: https://gepris.dfg.de/gepris/projekt/442135169?language=en
This data management plan (DMP) applies to the Research Data Management Organizer (RDMO) questionnaire and was operated with the RDMO software: https://rdmorganiser.github.io/en/