The occurrence, distribution and biology of invasive fish species in fresh and brackish water bodies of NE Morocco

Versão mais recente publicado por Museu de Ciències Naturals de Barcelona em Jan 27, 2021 Museu de Ciències Naturals de Barcelona

Monitoring the presence and expansion of alien species and upgrading their biological and ecological knowledge seems crucial to mitigate their possible impact on native communities. Within inland superficial waters, alien fish represent an important threat to the biodiversity and studies on their impact on native communities have increased around the world in the last years. However, little is known about their occurrence, biology and influences in North Africa in general, and more specifically in Morocco. In the present work we aimed to: 1) investigate the presence of any native Aphanius species, especially the Mediterranean killifish Aphanius fasciatus recorded from the lower basin of the Moulouya River (NE Morocco); 2) monitor the presence and expansion of two invasive species, the eastern mosquitofish Gambusia holbrooki and the mummichog Fundulus heteroclitus; and 3) contribute to the understanding of the ecological and abiotic affinities that govern the distribution of these alien fishes in North Africa. To achieve these goals, several field sampling campaigns were carried out between 2014 and 2018 across eastern Morocco, comprising the administrative Oriental Region and the Moulouya River Basin and covering an area of 119,268 km2. No native Aphanius species were found. The eastern mosquitofish has invaded the freshwater hydrosystems of the northern part of Morocco, including the study area, while the mummichog is currently limited to the brackish and salty wetlands of Lower Moulouya. Our

Registros de Dados

Os dados deste recurso de ocorrência foram publicados como um Darwin Core Archive (DwC-A), que é o formato padronizado para compartilhamento de dados de biodiversidade como um conjunto de uma ou mais tabelas de dados. A tabela de dados do núcleo contém 62 registros.

Este IPT armazena os dados e, portanto, serve como um repositório de dados. Os dados e os metadados do recurso estão disponíveis para download no seção de downloads. A tabela de versões lista outras versões do recurso que foram disponibilizadas ao público e permite o rastreamento das alterações realizadas no recurso ao longo do tempo.

Downloads

Baixe a última versão do recurso de dados, como um Darwin Core Archive (DwC-A) ou recurso de metadados, como EML ou RTF:

Dados como um arquivo DwC-A download 62 registros em English (10 KB) - Frequência de atualização: não plenejado
Metadados como um arquivo EML download em English (24 KB)
Metadados como um arquivo RTF download em English (18 KB)

Versões

A tabela abaixo mostra apenas versões de recursos que são publicamente acessíveis.

Como citar

Pesquisadores deveriam citar esta obra da seguinte maneira:

Taybi, A. F., Mabrouki, Y., Doadrio, I., 2020. The occurrence, distribution and biology of invasive fish species in fresh and brackish water bodies of NE Morocco. Museu de Ciències Naturals de Barcelona. Dataset/Occurrence: https://doi.org/10.15470/2qed9o

Direitos

Pesquisadores devem respeitar a seguinte declaração de direitos:

O editor e o detentor dos direitos deste trabalho é Museu de Ciències Naturals de Barcelona. This work is licensed under a Creative Commons Attribution (CC-BY) 4.0 License.

GBIF Registration

Este recurso foi registrado no GBIF e atribuído ao seguinte GBIF UUID: 55347db9-46a3-449d-8e55-ba6ed02e4820.  Museu de Ciències Naturals de Barcelona publica este recurso, e está registrado no GBIF como um publicador de dados aprovado por GBIF Spain.

Palavras-chave

Alien fishes; Mediterranean killifish; Eastern mosquitofish; Mummichog; Competition; Range expansion; Occurrence

Contatos

Quem criou esse recurso:

Y. Mabrouki
Sidi Mohamed Ben Abdellah University Dhar El Mehraz MA

Quem pode responder a perguntas sobre o recurso:

A. F. Taybi
Sidi Mohamed Ben Abdellah University Dhar El Mehraz MA
Y. Mabrouki
Sidi Mohamed Ben Abdellah University Dhar El Mehraz MA
I. Doadrio
Museo Nacional de Ciencias Naturales-CSIC Madrid ES

Quem preencher os metadados:

Montse Ferrer
Managing Editor
Arxius de Miscel·lània Zoològica, Museu de Ciències Naturals de Barcelona Ps Picasso s/n. 08003 Barcelona Barcelona ES

Quem mais foi associado com o recurso:

Usuário
Montse Ferrer
Managing Editor AMZ
Arxius de Miscel·lània Zoològica, Museu de Ciències Naturals de Barcelona Ps Picasso s/n. 08003 Barcelona Barcelona ES

Cobertura Geográfica

Morocco is currently divided into 12 administrative regions, including the Oriental Region (fig. 1), which occupies almost all the eastern side of the country and covers an area of 88,681 km2 (see Mabrouki et al., 2018 for details). The Oriental Region includes the wilaya of Oujda (Oujda–Angad prefecture) and the provinces of Berkane, Driouch, Figuig, Guercif, Jerada, Nador and Taourirt. The watershed of the Moulouya (fig. 1), which includes nearly 43,412 km2 of eastern Morocco, covers much of the Oriental Region. With a length of 600 km, the Moulouya is the longest Moroccan River flowing into the Mediterranean. Its main tributaries are the Oueds Ansegmir, Melloulou, Za and Msoun, all permanent. Other tributaries are presently intermittent (3–5 flash floods on average per year) (Bensaad et al., 2017; Mabrouki et al., 2017). Surveys Field investigations (often in the framework of various hydrobiological studies) have been carried out since 2014 at 45 stations throughout the Moulouya River basin, including its main affluents: Oued Anzegmir (side of the High Atlas), Oued Melloulou (Middle Atlas slope) and Oued Za (High Plateau), and at about 60 stations spread throughout eastern Morocco from the northern regions of Nador and Saïdia, to Figuig in the southeast and Talessint and Bouanane in the southwest (fig.1). The stations that showed the occurrence of the mentioned fish species were re-examined between 2017 and 2018. Quantitative sampling of fish fauna was carried out using nets, searching in the most suitable places for the studied species. Sampling lasted an average of one hour over an area of 10 m2 at each station, sufficient time to trap and catch virtually all the fish in each area. Invasive species caught were preserved in formalin solution, while native fish (especially fry) were returned to the water. Permission to perform these studied was granted by the authorities.

Coordenadas delimitadoras Sul Oeste [31.915, -9.668], Norte Leste [35.889, -1.143]

Cobertura Taxonômica

Nenhuma descrição disponível

Família  Aphanidae,  Fundulidae,  Poeciliidae
Espécie  Aphanius fasciatus,  Fundulus heteroclitus,  Gambusia holbrooki

Cobertura Temporal

Data Inicial / Data final 2014-01-01 / 2018-12-31

Dados Sobre o Projeto

Biological invasions are one of the most important human impacts on a wide range of ecosystems and a major cause of global change (Ricciardi, 2006). The introduction and invasion of alien species are one of the main threats to biodiversity and ecosystem functioning worldwide, and represent the cause of huge ecological and economic costs around the world (Fausch and García-Berthou, 2013). Many invasive species have been implicated in species extinction, habitat degradation and ecosystem alteration (Cox, 1999; Pimentel et al., 2005; Coccia, 2015). Freshwater invasions have been less studied than terrestrial invasions, and the ecological and evolutionary consequences of most invasions remain unknown (Ricciardi and MacIsaac, 2011). Freshwaters are the most invaded and threatened ecosystem worldwide, with proportionally more invaders than terrestrial systems (Vitousek et al., 1997; Strayer, 2010). Many members of the genus Aphanius are “victims” of biological invasion, such as the Mediterranean killifish, A. fasciatus (Valenciennes, 1821), a cyprinodotid fish whose native range includes coastal brackish-waters mainly in the coastal zone of the central and eastern Mediterranean (Bianco, 1995). Nevertheless, it can also be found in various inland water bodies, such as lakes, inland streams and even in some North African oases (Hrbek and Meyer, 2003; Güçlü et al., 2013). Aphanius fasciatus is also present in various Mediterranean islands, such as Sardinia, Corsica and Cyprus (Bianco et al., 1996; Kottelat and Freyhof, 2007; Englezou et al., 2018). The Mediterranean killifish was reported in Morocco for the first time at the wetland of the Moulouya River mouth by Melhaoui (1994), but the species has not been reported since this record. Aphanius fasciatus has disappeared from many sites where it once existed, and its populations have declined dramatically. In many cases it has even reached local extinction due to problems such as pollution of continental and coastal waters, brackish-water habitat degradation, destruction and reduction of salt-works and, most importantly, introduction of exotic fishes (Bianco, 1995). Competition with the alien species Gambusia holbrooki Girard, 1859 has strongly reduced the presence of A. fasciatus in many parts of its range (Kessabi et al., 2009; Valdesalici et al., 2015). Commonly known as “Eastern mosquitofish”, Gambusia holbrooki is a freshwater poecilid native of America (Lloyd and Tomasov, 1985). It has been considered one of the world’s one hundred worst invasive alien species by the GISP (Global Invasive Species Programme, http://www.issg.org/database/).It was introduced extensively for biological control against mosquito larvae and distributed in all continents except Antarctica, becoming a notorious pest worldwide (Cote et al., 2011; Pyke, 2005; Srean, 2015; Arnett, 2016) and causing serious problems for native fish such as A. fasciatus, Aphanius iberus (Valenciennes, 1846) or Valencia hispanica (Valenciennes, 1846) (Rincón et al., 2002, Caiola and de Sostoa, 2005; Valdesalici et al., 2015). Another alien fish which has been reported to cause range reductions in native toothcarps is the mummichog Fundulus heteroclitus (Linnaeus, 1766), a small teleost fish, naturally occurring in saltmarshes of the Atlantic coast of North America from the Gulf of St Lawrence, southwards to north‐eastern Florida (Shute, 1980). It was found in Iberia for the first time between 1970 and 1973 (Bernardi et al., 1995). Since then, F. heteroclitus has been found in many parts of Spain and Portugal (Morim et al., 2019). We found it for the first time in Morocco and Northern Africa at the Moulouya River mouth This study aimed to evaluate the presence of A. fasciatus or any native Aphanius species in NE Morocco, in parallel with the two invasive species G. holbrooki and F. heteroclitus. Furthermore, our goal was to study the interaction between the invasive fish, and their occurrence, distribution and biology in the fresh and brackish water bodies of the study area.

Título The occurrence, distribution and biology of invasive fish species in fresh and brackish water bodies of NE Morocco
Descrição da Área de Estudo Morocco is currently divided into 12 administrative regions, including the Oriental Region (fig. 1), which occupies almost all the eastern side of the country and covers an area of 88,681 km2 (see Mabrouki et al., 2018 for details). The Oriental Region includes the wilaya of Oujda (Oujda–Angad prefecture) and the provinces of Berkane, Driouch, Figuig, Guercif, Jerada, Nador and Taourirt. The watershed of the Moulouya (fig. 1), which includes nearly 43,412 km2 of eastern Morocco, covers much of the Oriental Region. With a length of 600 km, the Moulouya is the longest Moroccan River flowing into the Mediterranean. Its main tributaries are the Oueds Ansegmir, Melloulou, Za and Msoun, all permanent. Other tributaries are presently intermittent (3–5 flash floods on average per year) (Bensaad et al., 2017; Mabrouki et al., 2017).
Descrição do Design Field investigations (often in the framework of various hydrobiological studies) have been carried out since 2014 at 45 stations throughout the Moulouya River basin, including its main affluents: Oued Anzegmir (side of the High Atlas), Oued Melloulou (Middle Atlas slope) and Oued Za (High Plateau), and at about 60 stations spread throughout eastern Morocco from the northern regions of Nador and Saïdia, to Figuig in the southeast and Talessint and Bouanane in the southwest (fig.1). The stations that showed the occurrence of the mentioned fish species were re-examined between 2017 and 2018. Quantitative sampling of fish fauna was carried out using nets, searching in the most suitable places for the studied species. Sampling lasted an average of one hour over an area of 10 m2 at each station, sufficient time to trap and catch virtually all the fish in each area. Invasive species caught were preserved in formalin solution, while native fish (especially fry) were returned to the water. Permission to perform these studied was granted by the authorities. Abiotic factors For this study, ten environmental parameters were selected: sulfate (SO42–), biological oxygen demand after 5 days (BOD5), phosphate (PO43–) and nitrate (N-NO3) were measured in the laboratory. Conductivity, salinity, pH, dissolved oxygen, temperature and the mean depth were measured in situ using a multiparametric measuring device (WTW, Multi-Line P4). Two replicas of water samples from each station were taken in 500 ml polyethylene bottles. The water samples were preserved with 2 ml of concentrated hydrochloric acid (pH = 2). According to standards ISO 5667-6 (1990), ISO 5667-2 (1991) and ISO 5667-3 (1994), water samples were transported in a cooler at a low temperature (± 4 °C) to stop the metabolic activities of organisms in the water. The current velocity, well known for its selective action on habitat and species distribution (Mabrouki et al., 2019a), was quantified by its mean value at three different locations of the same station. In the absence of a hydrometric reel to measure current velocity it was estimated using a stopwatch at various points of the watercourse by measuring the time it takes for a floating object to cross a given path. The average speed (converted to cm–1) was semi-quantitatively estimated, followed by a transformation into three modalities: 1, very low to no current < 5 cm–1; 2, low current 5 < 2 < 25 cm–1; and 3, average current 25 < 3 < 50 cm-1.

O pessoal envolvido no projeto:

Métodos de Amostragem

Field investigations (often in the framework of various hydrobiological studies) have been carried out since 2014 at 45 stations throughout the Moulouya River basin, including its main affluents: Oued Anzegmir (side of the High Atlas), Oued Melloulou (Middle Atlas slope) and Oued Za (High Plateau), and at about 60 stations spread throughout eastern Morocco from the northern regions of Nador and Saïdia, to Figuig in the southeast and Talessint and Bouanane in the southwest (fig.1). The stations that showed the occurrence of the mentioned fish species were re-examined between 2017 and 2018. Quantitative sampling of fish fauna was carried out using nets, searching in the most suitable places for the studied species. Sampling lasted an average of one hour over an area of 10 m2 at each station, sufficient time to trap and catch virtually all the fish in each area. Invasive species caught were preserved in formalin solution, while native fish (especially fry) were returned to the water. Permission to perform these studied was granted by the authorities.

Área de Estudo Morocco is currently divided into 12 administrative regions, including the Oriental Region (fig. 1), which occupies almost all the eastern side of the country and covers an area of 88,681 km2 (see Mabrouki et al., 2018 for details). The Oriental Region includes the wilaya of Oujda (Oujda–Angad prefecture) and the provinces of Berkane, Driouch, Figuig, Guercif, Jerada, Nador and Taourirt. The watershed of the Moulouya (fig. 1), which includes nearly 43,412 km2 of eastern Morocco, covers much of the Oriental Region. With a length of 600 km, the Moulouya is the longest Moroccan River flowing into the Mediterranean. Its main tributaries are the Oueds Ansegmir, Melloulou, Za and Msoun, all permanent. Other tributaries are presently intermittent (3–5 flash floods on average per year) (Bensaad et al., 2017; Mabrouki et al., 2017).
Controle de Qualidade Statistical analyses were carried out using software R package version 3.3.1. (R Core Team, 2019). In the modelling of counting processes, here the abundance of a species, two kinds of models are commonly implemented, namely the Poisson model and the negative binomial model (Hilbe, 2011). Frequently, counting data is characterized by overdispersion, whereby the sample variance is greater than its average. In the case where the anomalous dispersion is proved, the Poisson regression is no longer suitable for modelling this distribution, and the negative binomial regression model, allowing more flexibility in the dispersion, should be used. The relevance of Poisson regression or negative binomial models was evaluated by the Pearson Residue Test (Plackett, 1983).

Descrição dos passos do método:

  1. For this study, ten environmental parameters were selected: sulfate (SO42–), biological oxygen demand after 5 days (BOD5), phosphate (PO43–) and nitrate (N-NO3) were measured in the laboratory. Conductivity, salinity, pH, dissolved oxygen, temperature and the mean depth were measured in situ using a multiparametric measuring device (WTW, Multi-Line P4). Two replicas of water samples from each station were taken in 500 ml polyethylene bottles. The water samples were preserved with 2 ml of concentrated hydrochloric acid (pH = 2). According to standards ISO 5667-6 (1990), ISO 5667-2 (1991) and ISO 5667-3 (1994), water samples were transported in a cooler at a low temperature (± 4 °C) to stop the metabolic activities of organisms in the water. The current velocity, well known for its selective action on habitat and species distribution (Mabrouki et al., 2019a), was quantified by its mean value at three different locations of the same station. In the absence of a hydrometric reel to measure current velocity it was estimated using a stopwatch at various points of the watercourse by measuring the time it takes for a floating object to cross a given path. The average speed (converted to cm–1) was semi-quantitatively estimated, followed by a transformation into three modalities: 1, very low to no current < 5 cm–1; 2, low current 5 < 2 < 25 cm–1; and 3, average current 25 < 3 < 50 cm-1.

Citações bibliográficas

  1. Taybi, A. F., Mabrouki, Y., Doadrio, I., 2020. The occurrence, distribution and biology of invasive fish species in fresh and brackish water bodies of NE Morocco. Arxius de Miscel·lània Zoològica, 18: 59-73, Doi: https://doi.org/10.32800/amz.2020.18.0059 https://doi.org/10.32800/amz.2020.18.0059

Metadados Adicionais

Identificadores alternativos 10.15470/2qed9o
55347db9-46a3-449d-8e55-ba6ed02e4820
https://ipt.gbif.es/resource?r=invasive_fish_species_morocco