Your search keyword '"Belaidi, Nouria"' showing total 17 results

1. A collaborative backbone resource for comparative studies of subterranean evolution:The World Asellidae database

Author

Saclier, Nathanaelle, Duchemin, Louis, Konecny-Dupré, Lara, Grison, Philippe, Eme, David, Martin, Chloé, Callou, Cécile, Lefébure, Tristan, François, Clémentine, Issartel, Colin, Lewis, Julian J., Stoch, Fabio, Sket, Boris, Gottstein, Sanja, Delić, Teo, Zagmajster, Maja, Grabowski, Michal, Weber, Dieter, Reboleira, Ana Sofia P. S., Palatov, Dmitry, Paragamian, Kaloust, Knight, Lee R. F. D., Michel, Georges, Lefebvre, Francois, Hosseini, Mohammad Javad Malek, Camacho, Ana I., De Bikuña, Begoña Gartzia, Taleb, Amina, Belaidi, Nouria, Tuekam Kayo, Raoul P., Galassi, Diana Maria Paola, Moldovan, Oana Teodora, Douady, Christophe J., Malard, Florian, Saclier, Nathanaelle, Duchemin, Louis, Konecny-Dupré, Lara, Grison, Philippe, Eme, David, Martin, Chloé, Callou, Cécile, Lefébure, Tristan, François, Clémentine, Issartel, Colin, Lewis, Julian J., Stoch, Fabio, Sket, Boris, Gottstein, Sanja, Delić, Teo, Zagmajster, Maja, Grabowski, Michal, Weber, Dieter, Reboleira, Ana Sofia P. S., Palatov, Dmitry, Paragamian, Kaloust, Knight, Lee R. F. D., Michel, Georges, Lefebvre, Francois, Hosseini, Mohammad Javad Malek, Camacho, Ana I., De Bikuña, Begoña Gartzia, Taleb, Amina, Belaidi, Nouria, Tuekam Kayo, Raoul P., Galassi, Diana Maria Paola, Moldovan, Oana Teodora, Douady, Christophe J., and Malard, Florian

Abstract

Transition to novel environments, such as groundwater colonization by surface organisms, provides an excellent research ground to study phenotypic evolution. However, interspecific comparative studies on evolution to groundwater life are few because of the challenge in assembling large ecological and molecular resources for species-rich taxa comprised of surface and subterranean species. Here, we make available to the scientific community an operational set of working tools and resources for the Asellidae, a family of freshwater isopods containing hundreds of surface and subterranean species. First, we release the World Asellidae database (WAD) and its web application, a sustainable and FAIR solution to producing and sharing data and biological material. WAD provides access to thousands of species occurrences, specimens, DNA extracts and DNA sequences with rich metadata ensuring full scientific traceability. Second, we perform a large-scale dated phylogenetic reconstruction of Asellidae to support phylogenetic comparative analyses. Of 424 terminal branches, we identify 34 pairs of surface and subterranean species representing independent replicates of the transition from surface water to groundwater. Third, we exemplify the usefulness of WAD for documenting phenotypic shifts associated with colonization of subterranean habitats. We provide the first phylogenetically controlled evidence that body size of males decreases relative to that of females upon groundwater colonization, suggesting competition for rare receptive females selects for smaller, more agile males in groundwater. By making these tools and resources widely accessible, we open up new opportunities for exploring how phenotypic traits evolve in response to changes in selective pressures and trade-offs during groundwater colonization.

Published

2024

2. Changes in the vertical distribution of hyporheic and benthic fauna associated with low flow conditions in the headwaters of the Tafna river (northwest Algeria)

Author

Benkebil, Zeyneb, Taleb, Amina, Zenagui, Ibrahim, and Belaidi, Nouria

Published

2021

3. A collaborative backbone resource for comparative studies of subterranean evolution: The World Asellidae database

Author

Saclier, Nathanaelle, primary, Duchemin, Louis, additional, Konecny‐Dupré, Lara, additional, Grison, Philippe, additional, Eme, David, additional, Martin, Chloé, additional, Callou, Cécile, additional, Lefébure, Tristan, additional, François, Clémentine, additional, Issartel, Colin, additional, Lewis, Julian J., additional, Stoch, Fabio, additional, Sket, Boris, additional, Gottstein, Sanja, additional, Delić, Teo, additional, Zagmajster, Maja, additional, Grabowski, Michal, additional, Weber, Dieter, additional, Reboleira, Ana Sofia P. S., additional, Palatov, Dmitry, additional, Paragamian, Kaloust, additional, Knight, Lee R. F. D., additional, Michel, Georges, additional, Lefebvre, Francois, additional, Hosseini, Mohammad‐Javad Malek, additional, Camacho, Ana I., additional, De Bikuña, Begoña Gartzia, additional, Taleb, Amina, additional, Belaidi, Nouria, additional, Tuekam Kayo, Raoul P., additional, Galassi, Diana Maria Paola, additional, Moldovan, Oana Teodora, additional, Douady, Christophe J., additional, and Malard, Florian, additional

Published

2023

4. Environmental factors determining regional biodiversity patterns of groundwater fauna in semi-arid aquifers of northwest Algeria

Author

Mahi, Abdelhakim, Di Lorenzo, Tiziana, Haicha, Bathoul, Belaidi, Nouria, and Taleb, Amina

Published

2019

5. Applications of a SWAT model to evaluate the contribution of the Tafna catchment (north-west Africa) to the nitrate load entering the Mediterranean Sea

Author

Zettam, Amin, Taleb, Amina, Sauvage, Sabine, Boithias, Laurie, Belaidi, Nouria, and Sanchez-Perez, José Miguel

Published

2020

6. Nutrient dynamics in a hyporheic zone in response to a severe and prolonged dry period in a semi-arid river (Tafna wadi)

Author

Zenagui, Ibrahim, Belaidi, Nouria, Benkebil, Zeyneb, and Taleb, Amina

Published

2019

7. A large-scale study of hyporheic nitrate dynamics in a semi-arid catchment, the Tafna River, in Northwest Algeria

Author

Haddou, Karima, Bendaoud, Amina, Belaidi, Nouria, and Taleb, Amina

Published

2018

8. Hydrology, nitrate and sediment fluxes towards the Mediterranean Sea: case of the main North Africa catchments

Author

Amin ZETTAM, Sabine SAUVAGE, Amina TALEB, BELAIDI Nouria, and José Miguel SANCHEZ-PEREZ

Abstract

The objective of this study is to propose a modelling approach to quantify the contribution of mains coastal catchments of North Africa in sediment and nitrate fluxes to the Mediterranean Sea. We use the Soil and Water Assessment Tool (SWAT) on the biggest coastal rivers, Moulouya (55 860 km2), Tafna (7200 km2), Chelif (44 694 km2) Oued el Kebir (8 824 km2) and Medjerda (23 213 km2). Simulation was performed monthly from 2003 to 2013. The model represents correctly the dynamics of water, sediment and nitrate flux. Rivers carry between 22 .103 to 390 103t yr-1 of sediments and Oued el Kebir contributes with 55% of the total amount, while nitrate fluxes vary from 182 to 1715 t yr-1 and Moulouya contributes with 32% of the total quantity. The simulations show us that the North African dams stocked a large amount of sediment (98%) and nitrates (39%) transported by rivers.

Published

2022

9. Long-term and event-scale sub-daily streamflow and sediment simulation in a small forested catchment

Author

Sok, Ty, Oeurng, Chantha, Ich, Ilan, Sauvage, Sabine, Miguel Sánchez-Pérez, José, Cakir, Roxelane, Gerino, Magali, Volk, Martin, Sánchez-Pérez, José Miguel, Wei, Xi, Ouillon, Sylvain, Le, Thi Phuong Quynh, Orange, Didier, Herrmann, Marine, Sanchez-Perez, José-Miguel, Zettam, Amin, Taleb, Amina, Boithias, Laurie, Belaidi, Nouria, Mami, Amina, Yebdri, Djilali, Raimonet, Mélanie, Miguel, José, Lechuga-Crespo, Juan Luis, vanVliet, Michelle, Ruiz-Romera, Estilita, Probst, Jean-Luc, Martínez-Espinosa, Columba, Al Bitar, Ahmad, Green, Pamela, Vörösmarty, Charles, Meaurio, Maite, Zabaleta, Ane, Srinivasan, Raghavan, Antiguedad, Iñaki, and Centre National de la Recherche Scientifique (CNRS)

Subjects

Hydrology, geography, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, [SDE.MCG]Environmental Sciences/Global Changes, 0207 environmental engineering, Drainage basin, Sediment, Time distribution, 02 engineering and technology, 01 natural sciences, Term (time), 13. Climate action, Streamflow, [SDE]Environmental Sciences, Environmental science, 020701 environmental engineering, Event scale, ComputingMilieux_MISCELLANEOUS, 0105 earth and related environmental sciences, Water Science and Technology

Abstract

International audience; Abstract Here, we simulate carbon dioxide (CO2) sequestration in 300 major world river basins (about 70% of global surface area) through carbonates dissolution and silicate hydrolysis. For each river basin, the daily timescale impacts under both the RCP 2.6 and RCP 8.5 climate scenarios were assessed relative to a historic baseline (1969-1999) using a cascade of models accounting for the hydrological evolution under climate change scenarios. Here we show that global temporal evolution of the CO2 uptake presents a general increase in the annual amount of CO2 consumed from 0.247 Pg C·y-1 to 0.261 and 0.273 Pg C·y-1, respectively for RCP 2.6 and RCP 8.5. Besides, despite showing a general increase for the global daily carbon sequestration, both climate scenarios present a decrease between June and August. Such projected changes have been mapped and evaluated against changes in hydrology, identifying hot spots and moments for the annual and seasonal periods.

Published

2021

10. Changes in the vertical distribution of hyporheic and benthic fauna associated with low flow conditions in the headwaters of the Tafna river (northwest Algeria)

Author

Benkebil, Zeyneb, primary, Taleb, Amina, additional, Zenagui, Ibrahim, additional, and Belaidi, Nouria, additional

Published

2020

11. Nutrient dynamics in a hyporheic zone in response to a severe and prolonged dry period in a semi-arid river (Tafna wadi).

Author

Zenagui, Ibrahim, Belaidi, Nouria, Benkebil, Zeyneb, and Taleb, Amina

Subjects

MEDITERRANEAN climate, DENITRIFICATION, WATER, AMMONIUM chloride, AMMONIUM nitrate, NITROGEN cycle

Abstract

Against the backdrop of recent climate change issues, the intensity of dry periods is increasing in semi-arid environments due to high temperatures, evaporation and a shortage of precipitation in summer. The Tafna catchment, which is located in north-western Algeria and is characterised by a Mediterranean climate with a sub-dry tendency, has been subject to severe and prolonged dry periods. In order to understand the impact of prolonged dry periods on biogeochemical processes and nutrient exchange between surface water (SW) and hyporheic water (HW) within the (study) catchment, four sets of samples were taken upstream of the Tafna wadi during low-water (LW) periods over two years (2014–2015). Nitrate, nitrite, ammonium and chloride were measured in surface water (SW) and hyporheic water (HW) at depths of 30, 60 and 100 cm. The results showed a significant loss of nitrate and a considerable increase in ammonium in the hyporheic zone (HZ) during these severe conditions. This could be related to (i) high rates of denitrification and (ii) the process of dissimilatory nitrate reduction to ammonium (DNRA). This study indicated that a severe drought directly affects the nitrogen cycle that occurs in a hyporheic zone (HZ), and thus affects the functioning of this area relative to the wadi system as a whole. [ABSTRACT FROM AUTHOR]

Published

2020

12. Typhlocirolana longimera sp. n. (Crustacea, Isopoda, Cirolanidae) from north-western Algerian ground waters with notes on Algerian Typhlocirolana

Author

Mahi, Abdelhakim, primary, Taleb, Amina, additional, Belaidi, Nouria, additional, and Messana, Giuseppe, additional

Published

2017

13. Modelling Hydrology and Sediment Transport in a Semi-Arid and Anthropized Catchment Using the SWAT Model: The Case of the Tafna River (Northwest Algeria)

Author

Zettam, Amin, primary, Taleb, Amina, additional, Sauvage, Sabine, additional, Boithias, Laurie, additional, Belaidi, Nouria, additional, and Sánchez-Pérez, José, additional

Published

2017

14. Composition and distribution of stygobionts in the Tafna alluvial aquifer (north-western Algeria)

Author

Belaidi, Nouria, primary, Taleb, Amina, additional, Mahi, Abdelhakim, additional, and Messana, Giuseppe, additional

Published

2011

15. The role of the hyporheic zone in the nitrogen dynamics of a semi-arid gravel bed stream located downstream of a heavily polluted reservoir (Tafna wadi, Algeria)

Author

Taleb, Amina, primary, Belaidi, Nouria, additional, SÁnchez-PÉrez, José-Miguel, additional, Vervier, Philippe, additional, Sauvage, Sabine, additional, and Gagneur, James, additional

Published

2008

16. Water quality before and after dam building on a heavily polluted river in semi‐arid Algeria

Author

Taleb, Amina, primary, Belaidi, Nouria, additional, and Gagneur, James, additional

Published

2004

17. A collaborative backbone resource for comparative studies of subterranean evolution: The World Asellidae database.

Author

Saclier N, Duchemin L, Konecny-Dupré L, Grison P, Eme D, Martin C, Callou C, Lefébure T, François C, Issartel C, Lewis JJ, Stoch F, Sket B, Gottstein S, Delić T, Zagmajster M, Grabowski M, Weber D, Reboleira ASPS, Palatov D, Paragamian K, Knight LRFD, Michel G, Lefebvre F, Hosseini MM, Camacho AI, De Bikuña BG, Taleb A, Belaidi N, Tuekam Kayo RP, Galassi DMP, Moldovan OT, Douady CJ, and Malard F

Subjects

Animals, Phylogeny, Ecosystem, DNA, Base Sequence, Isopoda genetics

Abstract

Transition to novel environments, such as groundwater colonization by surface organisms, provides an excellent research ground to study phenotypic evolution. However, interspecific comparative studies on evolution to groundwater life are few because of the challenge in assembling large ecological and molecular resources for species-rich taxa comprised of surface and subterranean species. Here, we make available to the scientific community an operational set of working tools and resources for the Asellidae, a family of freshwater isopods containing hundreds of surface and subterranean species. First, we release the World Asellidae database (WAD) and its web application, a sustainable and FAIR solution to producing and sharing data and biological material. WAD provides access to thousands of species occurrences, specimens, DNA extracts and DNA sequences with rich metadata ensuring full scientific traceability. Second, we perform a large-scale dated phylogenetic reconstruction of Asellidae to support phylogenetic comparative analyses. Of 424 terminal branches, we identify 34 pairs of surface and subterranean species representing independent replicates of the transition from surface water to groundwater. Third, we exemplify the usefulness of WAD for documenting phenotypic shifts associated with colonization of subterranean habitats. We provide the first phylogenetically controlled evidence that body size of males decreases relative to that of females upon groundwater colonization, suggesting competition for rare receptive females selects for smaller, more agile males in groundwater. By making these tools and resources widely accessible, we open up new opportunities for exploring how phenotypic traits evolve in response to changes in selective pressures and trade-offs during groundwater colonization., (© 2023 John Wiley & Sons Ltd.)

Published

2024