TY  - JOUR
AU  - von Schiller, Daniel
AU  - Acuña, Vicenç
AU  - Aristi, Ibon
AU  - Arroita, Maite
AU  - Basaguren, Ana
AU  - Bellin, Alberto
AU  - Boyero, Luz
AU  - Butturini, Andrea
AU  - Ginebreda, Antoni
AU  - Kalogianni, Eleni
AU  - Larrañaga, Aitor
AU  - Majone, Bruno
AU  - Martínez, Aingeru
AU  - Monroy, Silvia
AU  - Muñoz, Isabel
AU  - Paunović, Momir
AU  - Pereda, Olatz
AU  - Petrović, Mira
AU  - Pozo, Jesús
AU  - Rodríguez-Mozaz, Sara
AU  - Rivas, Daniel
AU  - Sabater, Sergi
AU  - Sabater, Francesc
AU  - Skoulikidis, Nikolaos
AU  - Solagaistua, Libe
AU  - Vardakas, Leonidas
AU  - Elosegi, Arturo
PY  - 2017
UR  - http://linkinghub.elsevier.com/retrieve/pii/S0048969717309191
UR  - https://radar.ibiss.bg.ac.rs/handle/123456789/2743
AB  - River ecosystems are subject to multiple stressors that affect their structure and functioning. Ecosystem structure refers to characteristics such as channel form, water quality or the composition of biological communities, whereas ecosystem functioning refers to processes such as metabolism, organic matter decomposition or secondary production. Structure and functioning respond in contrasting and complementary ways to environmental stressors. Moreover, assessing the response of ecosystem functioning to stressors is critical to understand the effects on the ecosystem services that produce direct benefits to humans. Yet, there is more information on structural than on functional parameters, and despite the many approaches available to measure river ecosystem processes, structural approaches are more widely used, especially in management. One reason for this discrepancy is the lack of synthetic studies analyzing river ecosystem functioning in a way that is useful for both scientists and managers. Here, we present a synthesis of key river ecosystem processes, which provides a description of the main characteristics of each process, including criteria guiding their measurement as well as their respective sensitivity to stressors. We also discuss the current limitations, potential improvements and future steps that the use of functional measures in rivers needs to face.
T2  - Science of The Total Environment
T1  - River ecosystem processes: A synthesis of approaches, criteria of use and sensitivity to environmental stressors
VL  - 596-597
DO  - 10.1016/j.scitotenv.2017.04.081
SP  - 465
EP  - 480
ER  - 

@article{
author = "von Schiller, Daniel and Acuña, Vicenç and Aristi, Ibon and Arroita, Maite and Basaguren, Ana and Bellin, Alberto and Boyero, Luz and Butturini, Andrea and Ginebreda, Antoni and Kalogianni, Eleni and Larrañaga, Aitor and Majone, Bruno and Martínez, Aingeru and Monroy, Silvia and Muñoz, Isabel and Paunović, Momir and Pereda, Olatz and Petrović, Mira and Pozo, Jesús and Rodríguez-Mozaz, Sara and Rivas, Daniel and Sabater, Sergi and Sabater, Francesc and Skoulikidis, Nikolaos and Solagaistua, Libe and Vardakas, Leonidas and Elosegi, Arturo",
year = "2017",
abstract = "River ecosystems are subject to multiple stressors that affect their structure and functioning. Ecosystem structure refers to characteristics such as channel form, water quality or the composition of biological communities, whereas ecosystem functioning refers to processes such as metabolism, organic matter decomposition or secondary production. Structure and functioning respond in contrasting and complementary ways to environmental stressors. Moreover, assessing the response of ecosystem functioning to stressors is critical to understand the effects on the ecosystem services that produce direct benefits to humans. Yet, there is more information on structural than on functional parameters, and despite the many approaches available to measure river ecosystem processes, structural approaches are more widely used, especially in management. One reason for this discrepancy is the lack of synthetic studies analyzing river ecosystem functioning in a way that is useful for both scientists and managers. Here, we present a synthesis of key river ecosystem processes, which provides a description of the main characteristics of each process, including criteria guiding their measurement as well as their respective sensitivity to stressors. We also discuss the current limitations, potential improvements and future steps that the use of functional measures in rivers needs to face.",
journal = "Science of The Total Environment",
title = "River ecosystem processes: A synthesis of approaches, criteria of use and sensitivity to environmental stressors",
volume = "596-597",
doi = "10.1016/j.scitotenv.2017.04.081",
pages = "465-480"
}

von Schiller, D., Acuña, V., Aristi, I., Arroita, M., Basaguren, A., Bellin, A., Boyero, L., Butturini, A., Ginebreda, A., Kalogianni, E., Larrañaga, A., Majone, B., Martínez, A., Monroy, S., Muñoz, I., Paunović, M., Pereda, O., Petrović, M., Pozo, J., Rodríguez-Mozaz, S., Rivas, D., Sabater, S., Sabater, F., Skoulikidis, N., Solagaistua, L., Vardakas, L.,& Elosegi, A.. (2017). River ecosystem processes: A synthesis of approaches, criteria of use and sensitivity to environmental stressors. in Science of The Total Environment, 596-597, 465-480.
https://doi.org/10.1016/j.scitotenv.2017.04.081

von Schiller D, Acuña V, Aristi I, Arroita M, Basaguren A, Bellin A, Boyero L, Butturini A, Ginebreda A, Kalogianni E, Larrañaga A, Majone B, Martínez A, Monroy S, Muñoz I, Paunović M, Pereda O, Petrović M, Pozo J, Rodríguez-Mozaz S, Rivas D, Sabater S, Sabater F, Skoulikidis N, Solagaistua L, Vardakas L, Elosegi A. River ecosystem processes: A synthesis of approaches, criteria of use and sensitivity to environmental stressors. in Science of The Total Environment. 2017;596-597:465-480.
doi:10.1016/j.scitotenv.2017.04.081 .

von Schiller, Daniel, Acuña, Vicenç, Aristi, Ibon, Arroita, Maite, Basaguren, Ana, Bellin, Alberto, Boyero, Luz, Butturini, Andrea, Ginebreda, Antoni, Kalogianni, Eleni, Larrañaga, Aitor, Majone, Bruno, Martínez, Aingeru, Monroy, Silvia, Muñoz, Isabel, Paunović, Momir, Pereda, Olatz, Petrović, Mira, Pozo, Jesús, Rodríguez-Mozaz, Sara, Rivas, Daniel, Sabater, Sergi, Sabater, Francesc, Skoulikidis, Nikolaos, Solagaistua, Libe, Vardakas, Leonidas, Elosegi, Arturo, "River ecosystem processes: A synthesis of approaches, criteria of use and sensitivity to environmental stressors" in Science of The Total Environment, 596-597 (2017):465-480,
https://doi.org/10.1016/j.scitotenv.2017.04.081 . .

TY  - JOUR
AU  - Navarro-Ortega, Alicia
AU  - Acuna, Vicenc
AU  - Bellin, Alberto
AU  - Burek, Peter
AU  - Cassiani, Giorgio
AU  - Choukr-Allah, Redouane
AU  - Doledec, Sylvain
AU  - Elosegi, Arturo
AU  - Ferrari, Federico
AU  - Ginebreda, Antoni
AU  - Grathwohl, Peter
AU  - Jones, Colin
AU  - Rault, Philippe Ker
AU  - Kok, Kasper
AU  - Koundouri, Phoebe
AU  - Ludwig, Ralf Peter
AU  - Merz, Ralf
AU  - Milacic, Radmila
AU  - Munoz, Isabel
AU  - Nikulin, Grigory
AU  - Paniconi, Claudio
AU  - Paunović, Momir
AU  - Petrovic, Mira
AU  - Sabater, Laia
AU  - Sabater, Sergi
AU  - Skoulikidis, Nikolaos Th.
AU  - Slob, Adriaan
AU  - Teutsch, Georg
AU  - Voulvoulis, Nikolaos
AU  - Barcelo, Damia
PY  - 2015
UR  - https://radar.ibiss.bg.ac.rs/handle/123456789/2018
AB  - Water scarcity is a serious environmental problem in many European
   regions, and will likely increase in the near future as a consequence of
   increased abstraction and climate change. Water scarcity exacerbates the
   effects of multiple stressors, and thus results in decreased water
   quality. It impacts river ecosystems, threatens the services they
   provide, and it will force managers and policy-makers to change their
   current practices. The EU-FP7 project GLOBAQUA aims at identifying the
   prevalence, interaction and linkages between stressors, and to assess
   their effects on the chemical and ecological status of freshwater
   ecosystems in order to improve water management practice and policies.
   GLOBAQUA assembles a multidisciplinary team of 21 European plus 2
   non-European scientific institutions, as well as water authorities and
   river basin managers. The project includes experts in hydrology,
   chemistry, biology, geomorphology, modelling, socio-economics,
   governance science, knowledge brokerage, and policy advocacy. GLOBAQUA
   studies six river basins (Ebro, Adige, Sava, Evrotas, Anglian and Souss
   Massa) affected by water scarcity, and aims to answer the following
   questions: how does water scarcity interact with other existing
   stressors in the study river basins? How will these interactions change
   according to the different scenarios of future global change? Which will
   be the foreseeable consequences for river ecosystems? How will these in
   turn affect the services the ecosystems provide? How should management
   and policies be adapted to minimise the ecological, economic and
   societal consequences? These questions will be approached by combining
   data-mining, field- and laboratory-based research, and modelling. Here,
   we outline the general structure of the project and the activities to be
   conducted within the fourteen work-packages of GLOBAQUA. (C) 2014 The
   Authors. Published by Elsevier B.V.
T2  - Science of the Total Environment
T1  - Managing the effects of multiple stressors on aquatic ecosystems under
 water scarcity. The GLOBAQUA project
IS  - SI
VL  - 503
DO  - 10.1016/j.scitotenv.2014.06.081
SP  - 3
EP  - 9
ER  - 

@article{
author = "Navarro-Ortega, Alicia and Acuna, Vicenc and Bellin, Alberto and Burek, Peter and Cassiani, Giorgio and Choukr-Allah, Redouane and Doledec, Sylvain and Elosegi, Arturo and Ferrari, Federico and Ginebreda, Antoni and Grathwohl, Peter and Jones, Colin and Rault, Philippe Ker and Kok, Kasper and Koundouri, Phoebe and Ludwig, Ralf Peter and Merz, Ralf and Milacic, Radmila and Munoz, Isabel and Nikulin, Grigory and Paniconi, Claudio and Paunović, Momir and Petrovic, Mira and Sabater, Laia and Sabater, Sergi and Skoulikidis, Nikolaos Th. and Slob, Adriaan and Teutsch, Georg and Voulvoulis, Nikolaos and Barcelo, Damia",
year = "2015",
abstract = "Water scarcity is a serious environmental problem in many European
   regions, and will likely increase in the near future as a consequence of
   increased abstraction and climate change. Water scarcity exacerbates the
   effects of multiple stressors, and thus results in decreased water
   quality. It impacts river ecosystems, threatens the services they
   provide, and it will force managers and policy-makers to change their
   current practices. The EU-FP7 project GLOBAQUA aims at identifying the
   prevalence, interaction and linkages between stressors, and to assess
   their effects on the chemical and ecological status of freshwater
   ecosystems in order to improve water management practice and policies.
   GLOBAQUA assembles a multidisciplinary team of 21 European plus 2
   non-European scientific institutions, as well as water authorities and
   river basin managers. The project includes experts in hydrology,
   chemistry, biology, geomorphology, modelling, socio-economics,
   governance science, knowledge brokerage, and policy advocacy. GLOBAQUA
   studies six river basins (Ebro, Adige, Sava, Evrotas, Anglian and Souss
   Massa) affected by water scarcity, and aims to answer the following
   questions: how does water scarcity interact with other existing
   stressors in the study river basins? How will these interactions change
   according to the different scenarios of future global change? Which will
   be the foreseeable consequences for river ecosystems? How will these in
   turn affect the services the ecosystems provide? How should management
   and policies be adapted to minimise the ecological, economic and
   societal consequences? These questions will be approached by combining
   data-mining, field- and laboratory-based research, and modelling. Here,
   we outline the general structure of the project and the activities to be
   conducted within the fourteen work-packages of GLOBAQUA. (C) 2014 The
   Authors. Published by Elsevier B.V.",
journal = "Science of the Total Environment",
title = "Managing the effects of multiple stressors on aquatic ecosystems under
 water scarcity. The GLOBAQUA project",
number = "SI",
volume = "503",
doi = "10.1016/j.scitotenv.2014.06.081",
pages = "3-9"
}

Navarro-Ortega, A., Acuna, V., Bellin, A., Burek, P., Cassiani, G., Choukr-Allah, R., Doledec, S., Elosegi, A., Ferrari, F., Ginebreda, A., Grathwohl, P., Jones, C., Rault, P. K., Kok, K., Koundouri, P., Ludwig, R. P., Merz, R., Milacic, R., Munoz, I., Nikulin, G., Paniconi, C., Paunović, M., Petrovic, M., Sabater, L., Sabater, S., Skoulikidis, N. Th., Slob, A., Teutsch, G., Voulvoulis, N.,& Barcelo, D.. (2015). Managing the effects of multiple stressors on aquatic ecosystems under
 water scarcity. The GLOBAQUA project. in Science of the Total Environment, 503(SI), 3-9.
https://doi.org/10.1016/j.scitotenv.2014.06.081

Navarro-Ortega A, Acuna V, Bellin A, Burek P, Cassiani G, Choukr-Allah R, Doledec S, Elosegi A, Ferrari F, Ginebreda A, Grathwohl P, Jones C, Rault PK, Kok K, Koundouri P, Ludwig RP, Merz R, Milacic R, Munoz I, Nikulin G, Paniconi C, Paunović M, Petrovic M, Sabater L, Sabater S, Skoulikidis NT, Slob A, Teutsch G, Voulvoulis N, Barcelo D. Managing the effects of multiple stressors on aquatic ecosystems under
 water scarcity. The GLOBAQUA project. in Science of the Total Environment. 2015;503(SI):3-9.
doi:10.1016/j.scitotenv.2014.06.081 .

Navarro-Ortega, Alicia, Acuna, Vicenc, Bellin, Alberto, Burek, Peter, Cassiani, Giorgio, Choukr-Allah, Redouane, Doledec, Sylvain, Elosegi, Arturo, Ferrari, Federico, Ginebreda, Antoni, Grathwohl, Peter, Jones, Colin, Rault, Philippe Ker, Kok, Kasper, Koundouri, Phoebe, Ludwig, Ralf Peter, Merz, Ralf, Milacic, Radmila, Munoz, Isabel, Nikulin, Grigory, Paniconi, Claudio, Paunović, Momir, Petrovic, Mira, Sabater, Laia, Sabater, Sergi, Skoulikidis, Nikolaos Th., Slob, Adriaan, Teutsch, Georg, Voulvoulis, Nikolaos, Barcelo, Damia, "Managing the effects of multiple stressors on aquatic ecosystems under
 water scarcity. The GLOBAQUA project" in Science of the Total Environment, 503, no. SI (2015):3-9,
https://doi.org/10.1016/j.scitotenv.2014.06.081 . .