GLORIA — GEOMAR Library Ocean Research Information Access

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Plant diversity enhances production and downward transport of biodegradable dissolved organic matter (2020)

Lange, Markus ; Roth, Vanessa‐Nina ; Eisenhauer, Nico ; [et al.]

WILEY-BLACKWELL PUBLISHING

In: EPIC3Journal of Ecology, WILEY-BLACKWELL PUBLISHING, ISSN: 0022-0477

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Publication Date: 2020-11-26

Description: 1. Plant diversity is an important driver of belowground ecosystem functions, such as root growth, soil organic matter (SOM) storage, and microbial metabolism, mainly by influencing the interactions between plant roots and soil. Dissolved organic matter (DOM), as the most mobile form of SOM, plays a crucial role for a multitude of soil processes that are central for ecosystem functioning. Thus, DOM is likely to be an important mediator of plant diversity effects on soil processes. However, the relationships between plant diversity and DOM have not been studied so far. 2. We investigated the mechanisms underlying plant diversity effects on concentrations of DOM using continuous soil water sampling across 6 years and 62 plant communities in a long‐term grassland biodiversity experiment in Jena, Germany. Furthermore, we investigated plant diversity effects on the molecular properties of DOM in a subset of the samples. 3. Although DOM concentrations were highly variable over the course of the year with highest concentrations in summer and autumn, we found that DOM concentrations consistently increased with plant diversity across seasons. The positive plant diversity effect on DOM concentrations was mainly mediated by increased microbial activity and newly sequestered carbon in topsoil. However, the effect of soil microbial activity on DOM concentrations differed between seasons, indicating DOM consumption in winter and spring, and DOM production in summer and autumn. Furthermore, we found increased contents of small and easily decomposable DOM molecules reaching deeper soil layers with high plant diversity. 4. Synthesis. Our findings suggest that plant diversity enhances the continuous downward transport of DOM in multiple ways. On the one hand, higher plant diversity results in higher DOM concentrations, on the other hand, this DOM is less degraded. The present study indicates, for the first time, that higher plant diversity enhances the downward transport of dissolved molecules that likely stimulate soil development in deeper layers and therefore increase soil fertility.

Repository Name: EPIC Alfred Wegener Institut

Type: Article , isiRev

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Detecting shifts of submarine sediment boundaries using side-scan mosaics and GIS analyses (2020)

Galvez, Daphnie ; Papenmeier, Svenja ; Hass, H. Christian ; [et al.]

Elsevier

In: EPIC3Marine Geology, Elsevier, 430, pp. 106343, ISSN: 00253227

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Publication Date: 2021-08-24

Description: Detecting changes of sediment boundaries on the seafloor is important for a better understanding of sediment dynamics and related impacts to benthic habitats. Side-scan sonars (SSS) perform more cost-effectively in shallow waters than other acoustic systems because of their larger swath widths, and the resolution of its images does not change with varying water depth. However, as they are generally towed behind the survey vessel, they tend to have lower positioning accuracy, which makes them unreliable for change detection analyses. In this study, we present a workflow that processes SSS data in a way that makes them fit for change detection analyses. To test the capacity of SSS mosaics for change detection, we used a free software called “Digital Shoreline Analysis System”, which was developed by the United States Geological Survey for ArcGIS version 10.4 onwards. The methods were applied in three areas in the Sylt Outer Reef, German Bight, North Sea. Our results showed that with appropriate processing, SSS mosaics could be used for change detection of sharp sediment boundaries. We found a common trend in the sediment distribution patterns of coarse sediments by monitoring the movement of their boundaries. The boundaries moved in northeast-southwest direction and boundary movements of less than 20 m were typically observed. The methods presented here are semi-automated, repeatable, and replicable, which has potential for wide-scale monitoring of sediment distribution patterns.

Repository Name: EPIC Alfred Wegener Institut

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Designing sustainable food systems and consumption patterns : current insights from the Wuppertal Institute's research into sustainable food (2021)

Speck, Melanie ; Liedtke, Christa ; Hennes, Lena ; [et al.]

Wuppertal : Wuppertal Institut für Klima, Umwelt, Energie

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Publication Date: 2021-11-15

Description: Nutrition is one of the most important areas for the great transformation. So how can a shift towards a sustainable food system be achieved? This paper addresses this question - based on more than ten years of research on sustainable nutrition at the Wuppertal Institute. It focuses on public catering, because even small changes - for example in the choice of ingredients - have a huge impact here. With appropriate policy frameworks, public catering can serve as an easily accessible place for consumers to experience sustainable food and at the same time be a reliable buyer of biodiversity and climate-friendly food from farmers. However, other actors are also needed for a transformation of the food system: The "Zukunftsimpuls" addresses politics, (agricultural) industry, science and every individual - because the transformation of the food system is a task for the entire society.

Keywords: ddc:300

Repository Name: Wuppertal Institut für Klima, Umwelt, Energie

Language: English

Type: workingpaper , doc-type:workingPaper

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Effects of site‐selection bias on estimates of biodiversity change (2020)

Mentges, Andrea ; Blowes, Shane A. ; Hodapp, Dorothee ; [et al.]

WILEY-BLACKWELL PUBLISHING

In: EPIC3Conservation Biology, WILEY-BLACKWELL PUBLISHING, ISSN: 0888-8892

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Publication Date: 2020-11-26

Description: Estimates of biodiversity change are essential for the management and conservation of ecosystems. Accurate estimates rely on selecting representative sites, but monitoring often focuses on sites of special interest. How such site‐selection biases influence estimates of biodiversity change is largely unknown. Site‐selection bias potentially occurs across four major sources of biodiversity data, decreasing in likelihood from citizen science, museums, national park monitoring, and academic research. We defined site‐selection bias as a preference for sites that are either densely populated (i.e., abundance bias) or species rich (i.e., richness bias). We simulated biodiversity change in a virtual landscape and tracked the observed biodiversity at a sampled site. The site was selected either randomly or with a site‐selection bias. We used a simple spatially resolved, individual‐based model to predict the movement or dispersal of individuals in and out of the chosen sampling site. Site‐selection bias exaggerated estimates of biodiversity loss in sites selected with a bias by on average 300–400% compared with randomly selected sites. Based on our simulations, site‐selection bias resulted in positive trends being estimated as negative trends: richness increase was estimated as 0.1 in randomly selected sites, whereas sites selected with a bias showed a richness change of −0.1 to −0.2 on average. Thus, site‐selection bias may falsely indicate decreases in biodiversity. We varied sampling design and characteristics of the species and found that site‐selection biases were strongest in short time series, for small grains, organisms with low dispersal ability, large regional species pools, and strong spatial aggregation. Based on these findings, to minimize site‐selection bias, we recommend use of systematic site‐selection schemes; maximizing sampling area; calculating biodiversity measures cumulatively across plots; and use of biodiversity measures that are less sensitive to rare species, such as the effective number of species. Awareness of the potential impact of site‐selection bias is needed for biodiversity monitoring, the design of new studies on biodiversity change, and the interpretation of existing data.

Repository Name: EPIC Alfred Wegener Institut

Type: Article , isiRev

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Transformative innovation lab : handbook to facilitate students' real-world laboratory projects to promote transformative and transdisciplinary competencies (2021)

Wanner, Matthias ; Schmitt, Martina ; Fischer, Nele ; [et al.]

Wuppertal : Wuppertal Institut für Klima, Umwelt, Energie

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Publication Date: 2021-03-04

Description: Science and education are central fields and a lever for sustainable development. With the newly developed student teaching and learning format "Transformative Innovation Lab" - TIL for short - students are to be enabled to conduct independent transformative research. To this end, the researchers, under the direction of the Wuppertal Institute, developed and tested the new learning concept in the project "Development, testing and dissemination of new qualification offers for 'change agents' for transformative learning using the real-world laboratory approach" (EEVA). The detailed results and numerous implementation tips have been published in a practical handbook aimed at academic teaching staff and other multipliers.

Keywords: ddc:300

Repository Name: Wuppertal Institut für Klima, Umwelt, Energie

Language: English

Type: report , doc-type:report

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Facing Southern Ocean warming: Temperature effects on whole animal performance of Antarctic krill (Euphausia superba) (2021)

Michael, Katharina ; Suberg, Lavinia ; Wessels, Wiebke ; [et al.]

Elsevier

In: EPIC3Zoology, Elsevier, 146

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Publication Date: 2021-08-24

Description: The ongoing environmental changes in the Southern Ocean may cause a dramatic decrease in habitat quality. Due to its central position in the food web, Antarctic krill (Euphausia superba) is a key species of the marine Antarctic ecosystem. It is therefore crucial to understand how increasing water temperatures affect important krill life-cycle processes. Here, a long-term (August – March) laboratory acclimation experiment at different temperature scenarios (0.5 ◦C, 1.5 ◦C, 2.5 ◦C, 3.5 ◦C, 5 ◦C, 7 ◦C) was performed and the effects of elevated temperatures on whole animal parameters (O2 consumption, body length, length of the digestive gland) were analyzed. The response of krill oxygen consumption to different experimental temperatures differed between acute/short-term and long-term acclimation. After 8 months, krill oxygen consumption remained unchanged up to temperatures of 3.5 ◦C and was significantly higher at temperatures 〉 3.5 ◦C. Krill acclimated to temperatures ≥ 3.5 ◦C were significantly smaller at the end of the experiment. Limited food intake and/or conversion may have contributed to this effect, especially pronounced after the onset of the reproductive period. In addition, the seasonal growth pattern in males differed from that of females. Together, our findings indicate that warming Southern Ocean waters are likely to increase metabolic rate in krill, possibly altering the amount of energy available for other important life-cycle processes, a finding directly related to future population dynamics and fisheries management.

Repository Name: EPIC Alfred Wegener Institut

Type: Article , isiRev

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An Underwater Photogrammetric Application to Generate Micro-Bathymetry Data for Benthic Habitat Mapping and Analysis at Arctic Ocean. (2021)

Nejad, Amin Mardani ; Luhrmann, Thomas ; Kersten, Thomas P ; [et al.]

Elsevier

In: EPIC3IFAC-PapersOnLine, Elsevier, 54(16), pp. 402-409, ISSN: 2405-8963

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Publication Date: 2021-11-09

Description: The Ocean Floor Observation and Bathymetry System (OFOBS) is an underwater survey plat-form, which is designed and developed for research in the Polar Regions by the Alfred Wegener Institute (AWI). The tailored deep tow system brought a new perspective and clarity from Arctic Ocean by its optical and acoustic sensors. During the PS101 expedition at the Karasik seamount, OFOBS provides a novel picture of megafauna’s habitats. In this study, we develop a methodology to convert the imagery dataset to micro-bathymetry in order to provide primary data for object detection and habitat mapping which will provide a better understanding of arctic benthic habitats. The methodology is based on the underwater photogrammetry workflow and two different point cloud classification methods adopted for sponge detec-tion in 3D point clouds, to facilitate habitat mapping with a focus on the central of Kara

Repository Name: EPIC Alfred Wegener Institut

Type: Article , peerRev

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REFLECT Deliverable D6.1: Dissemination and communication plan (2020)

López, M. ; Stein, A. ; Sanchez, A.

GFZ German Research Centre for Geosciences

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Publication Date: 2020-05-19

Description: This document defines and prioritises the key objectives of dissemination of REFLECT and details the steps to be taken during the project’s lifetime in order to achieve maximum impact and reach relevant audiences. It also sets the framework to facilitate communication among Consortium members, and between the Consortium and stakeholders or the general public.

Language: English

Type: info:eu-repo/semantics/report

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EMPG – XVII 17th International Symposium on Experimental Mineralogy, Petrology and Geochemistry: Abstract volume (2021)

GFZ German Research Centre for Geosciences

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Publication Date: 2021-02-09

Language: English

Type: info:eu-repo/semantics/conferenceObject

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Storm impacts on phytoplankton community dynamics in lakes (2020)

Stockwell, Jason D. ; Doubek, Jonathan P. ; Adrian, Rita ; [et al.]

WILEY-BLACKWELL PUBLISHING

In: EPIC3Global Change Biology, WILEY-BLACKWELL PUBLISHING, 25(5), pp. 2756-2784, ISSN: 1354-1013

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Publication Date: 2020-08-13

Description: In many regions across the globe, extreme weather events such as storms have increased in frequency, intensity, and duration due to climate change. Ecological theory predicts that such extreme events should have large impacts on ecosystem structure and function. High winds and precipitation associated with storms can affect lakes via short‐term runoff events from watersheds and physical mixing of the water column. In addition, lakes connected to rivers and streams will also experience flushing due to high flow rates. Although we have a well‐developed understanding of how wind and precipitation events can alter lake physical processes and some aspects of biogeochemical cycling, our mechanistic understanding of the emergent responses of phytoplankton communities is poor. Here we provide a comprehensive synthesis that identifies how storms interact with lake and watershed attributes and their antecedent conditions to generate changes in lake physical and chemical environments. Such changes can restructure phytoplankton communities and their dynamics, as well as result in altered ecological function (e.g., carbon, nutrient and energy cycling) in the short‐ and long‐term. We summarize the current understanding of storm‐induced phytoplankton dynamics, identify knowledge gaps with a systematic review of the literature, and suggest future research directions across a gradient of lake types and environmental conditions.

Repository Name: EPIC Alfred Wegener Institut

Type: Article , isiRev

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