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SoilTrEC: a global initiative on critical zone research and integration
2014
Menon, Manoj | Rousseva, Svetla | Nikolaidis, Nikolaos P. | van Gaans, Pauline | Panagos, Panos | de Souza, Danielle Maia | Ragnarsdottir, Kristin Vala | Lair, Georg J. | Weng, Liping | Bloem, Jaap | Kram, Pavel | Novák, Martin | Davidsdottir, Brynhildur | Guðrún Gísladóttir, | Robinson, David A. | Reynolds, Brian | White, Tim | Lundin, Lars | Zhang, Bin | Duffy, Christopher | Bernasconi, Stefano M. | de Ruiter, Peter | Blum, Winfried E. H. | Banwart, Steven A.
Soil is a complex natural resource that is considered non-renewable in policy frameworks, and it plays a key role in maintaining a variety of ecosystem services (ES) and life-sustaining material cycles within the Earth's Critical Zone (CZ). However, currently, the ability of soil to deliver these services is being drastically reduced in many locations, and global loss of soil ecosystem services is estimated to increase each year as a result of many different threats, such as erosion and soil carbon loss. The European Union Thematic Strategy for Soil Protection alerts policy makers of the need to protect soil and proposes measures to mitigate soil degradation. In this context, the European Commission-funded research project on Soil Transformations in European Catchments (SoilTrEC) aims to quantify the processes that deliver soil ecosystem services in the Earth's Critical Zone and to quantify the impacts of environmental change on key soil functions. This is achieved by integrating the research results into decision-support tools and applying methods of economic valuation to soil ecosystem services. In this paper, we provide an overview of the SoilTrEC project, its organization, partnerships and implementation.
Mostrar más [+] Menos [-]Multilingual education of students on a global scale and perspective—international networking on the example of bioindication and biomonitoring (B&B technologies)
2014
Markert, Bernd | Baltrėnaitė, Edita | Chudzińska, Ewa | De Marco, Silvia | Diatta, Jean | Ghaffari, Zahra | Gorelova, Svetlana | Marcovecchio, Jorge | Tabors, Guntis | Wang, Meie | Yousef, Naglaa | Fraenzle, Stefan | Wuenschmann, Simone
Living or formerly living organisms are being used to obtain information on the quality of the general health status of our environment by bioindication and biomonitoring methods for many decades. Thus, different roads toward this common scientific goal were developed by a lot of different international research groups. Global cooperation in between various scientific teams throughout the world has produced common ideas, scientific definitions, and highly innovative results of this extremely attractive working field. The transdisciplinary approach of different and multifaceted scientific areas—starting from biology, analytical chemistry, via health physics, up to social and economic issues—have surpassed mental barriers of individual scientists, so that “production” of straightforward common results related to the influence of material and immaterial environmental factors to the well-being of organisms and human life has now reached the forefront of international thinking. For the further sustainable development of our common scientific “hobby” of bioindication and biomonitoring, highest personal energy has to be given by us, being teachers to our students and to convince strategically decision makers as politicians to invest (financially) into the development of education and research of this innovative technique. Young people have to be intensively convinced on the “meaning” of our scientific doing, e.g., by extended forms of education. One example of multilingual education of students on a global scale and perspective is given here, which we started about 3 years ago.
Mostrar más [+] Menos [-]Development of aquatic life criteria in China: viewpoint on the challenge
2014
Jin, Xiaowei | Wang, Yeyao | Giesy, John P. | Richardson, Kristine L. | Wang, Zijian
While more developed countries have a well-established systems to develop water quality criteria (WQC), little research has been done on the adequacy of the current WQC to protect endemic species of China. In order to maintain the health of aquatic ecosystems in China, a series of projects to establish national WQC based on regional characteristics has recently been initiated. However, the establishment of a completely novel methodology would be costly and time consuming. Also, due to the similarities in physiologies and natural histories of classes of aquatic organisms, there is no reason to believe that WQC would not be sufficient to protect unique species in China. This review was undertaken to identify key outstanding issues regarding establishment of aquatic life criteria (ALC) to be applied in China, including prioritization of chemicals, test species, mode of action, field/semi-field data, and methods of aggregating the information and calculating the ALC. This was used to identify the principle issues that need to be addressed in order to better understand the methods for development of criteria for the protection of aquatic life and provide a reference to China and other developing countries committed to the establishment of their own WQC system.
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