ABSTRACT
Abstract This is the 1st record of the Sonneratia apetala Buch.-Ham., in the mangroves of South America - Cubatão-Baixada Santista, State of São Paulo, Brazil. The record was made in an area located 2 km apart from the port of Santos. Its arrival was probably made through the ballast water. S. apetala as well an exotic it is also an aggressive mangrove species. All 85 individuals identified were georeferenced. In May 2023 they were flowering and in August they already had ripe fruits/propagules. The presence of exotic species in mangroves is worrying, they can cause profound ecological and economic impacts and negatively influence the restoration of native ecosystems. The presence of S. apetala in the mangroves of Cubatão region could bring about a radical change in the biological structure of the mangrove ecosystem, in addition to being a new point of dispersal to others areas.
Resumo Este é o primeiro registro da ocorrência de Sonneratia apetala Buch.-Ham., na América do Sul, Cubatão-Baixada Santista, Estado de São Paulo, Brasil. O registro ocorreu em área situada a 2 km do porto de Santos. Sua presença, se fez, provavelmente, por meio da água de lastro dos navios. A S. apetala é uma espécie exótica agressiva nos manguezais dessa região. Todos os 85 exemplares identificados foram georeferenciados. Em maio de 2023 estavam floridas e em agosto já tinha frutos/propágulos maduros. A presença de espécies exóticas nos manguezais é preocupante, pois são capazes de gerar impactos ecológicos e econômicos e influenciar, negativamente, na restauração desse ecossistema no estuário de Cubatão. A presença da S.apetala, no manguezal da região de Cubatão pode povocar uma mudança radical na estrutura biológica do ecossistema manguezal, além de ser um novo ponto de dispersão para outras áreas.
ABSTRACT
Mulinia lateralis is a native bivalve from the Western Atlantic Ocean, distributed from the Gulf of Saint Lawrence in Canada to Yucatan in Mexico. Based on morphological and genetic data of specimens collected in shrimp farms, in this work, we confirm the presence of M. lateralis in the Gulf of Guayaquil, Ecuador. Presence and its consequences of this invasive bivalve in the region is discussed.
Mulinia lateralis es un bivalvo nativo de las aguas del Océano Atlántico Occidental, distribuido desde el Golfo de Saint Lawrence en Canadá hasta Yucatán en México. En este trabajo, la presencia de M. lateralis es confirmada en el Golfo de Guayaquil, Ecuador, con base en datos morfológicos y genéticos de ejemplares colectados en camaroneras. Se presenta una discusión sobre la presencia y consecuencias de este bivalvo invasor en la región.
ABSTRACT
The transfer of ballast by the international shipping industry has negatively impacted the environment. To design such a protocol for the area, the ballast water tanks of seven bulk cargo vessels entering a Jamaican port were sampled between January 28, 2010 and August 17, 2010. Vessels originated from five ports and used three main routes, some of which conducted ballast water exchange. Twenty-six preserved and 22 live replicate zooplankton samples were obtained. Abundance and richness were higher than at temperate ports. Exchange did not alter the biotic composition but reduced the abundance. Two of the live sample replicates, containing 31.67 and 16.75 viable individuals m-3, were non-compliant with the International Convention for the Control and Management of Ships’ Ballast Water and Sediments. Approximately 12% of the species identified in the ballast water were present in the waters nearest the port in 1995 and 11% were present in the entire bay in 2005. The protocol designed from this study can be used to aid the establishment of a ballast water management system in the Caribbean or used as a foundation for the development of further protocols.
La transferencia de lastre por el transporte marítimo internacional ha impactado negativamente el ambiente. Con el fin de diseñar un protocolo, los tanques de agua de lastre de siete barcos carga en el puerto jamaiquino fueron muestreados entre el 28 de enero del 2010 y el 17 de agosto del 2010. Contenedores provenían de cinco puertos, utilizan tres rutas principales, algunos de los cuales conllevan un intercambio de agua de lastre. Se obtuvieron 26 muestras de zooplankton preservado y 22 vivo durante este periodo. La abundancia y riqueza de las muestras fue superior que en clima templado. El intercambio de agua de lastre no alteró la composición biótica pero disminuyó la abundancia. Dos de las muestras vivan, contenían 31.67 y 16.75 individuos viables m-3, no compatibles con el Reglamento D-2 estándar de la Convención Internacional para el control y manejo del agua de lastre y sedimentos de barcos. Aproximadamente el 12% de las especies identificadas en el agua de lastre estaban presentes en las aguas del puerto más cercano en 1995 y 11% estaban presentes en toda la bahía en el año 2005. El protocolo diseñado a partir de este estudio puede ser utilizado para ayudar al establecimiento de un sistema de gestión del agua de lastre en el Caribe o usado como una base para el desarrollo de futuros protocolos.
Subject(s)
Zooplankton/classification , Sedimentation , Guidelines as Topic/analysis , Biota , Water , JamaicaABSTRACT
The Port Complex of Maranhão (PCM) is the second largest port complex in Brazil, receiving ships with large volumes of ballast water. To evaluate the microbiological quality of its waters, physicochemical parameters (pH and salinity), the number of coliforms (thermotolerants and totals), and the presence of enterobacterias and diarrheagenic Escherichia coli strains were analyzed. In order to identify the presence of E. coli virulence genes target regions of the stx, elt, est, aggR, CVD432, ipaH and eae nucleotide sequences were studied. The presence of totals and thermotolerants coliforms were positive. Analyzing the salinity parameter, a significant increase in total coliforms was observed during the rainy season. We identified the species Escherichia coli, Proteus mirabilis, Citrobacter freundii, Proteus vulgaris, Klebsiella pneumoniae, Klebsiella ozaenae, Morganella morganii, Enterobacter cloacae and Edwardsiella tarda. Out of the 51 E. coli isolated, two were positive for the elt gene and one was positive for the CVD432 sequence, features of enterotoxigenic and enteroaggregative strains, respectively. This study reveals that the PCM is contaminated by enterobacteria and diarrheagenic E.coli thus providing evidence regarding the risk of these bacteria being carried by ships to other countries, and draws attention to the input of fecal bacteria brought by ships in the port waters of Maranhão.
Subject(s)
Enterobacteriaceae/classification , Enterobacteriaceae/isolation & purification , Water Microbiology , Bacterial Load , Brazil , Chemical Phenomena , Escherichia coli Proteins/genetics , Hydrogen-Ion Concentration , Salinity , Sequence Analysis, DNA , Virulence Factors/genetics , Water/chemistryABSTRACT
Marine biological invasions have been regarded as one of the major causes of native biodiversity loss, with shipping and aquaculture being the leading contributors for the introductions of alien species in aquatic ecosystems. In the present study, five aquatic alien species (one mollusk, three crustaceans and one fish species) were detected during dives, shore searches and from the fisheries on the coast of the Delta do Parnaíba Environmental Protection Area, in the States of Piauí and Maranhão, Northeastern Brazil. The species were the bicolor purse-oyster Isognomon bicolor, the whiteleg shrimp Litopenaeus vannamei, the giant river prawn Macrobrachium rosenbergii, the Indo-Pacific swimming crab Charybdis hellerii and, the muzzled blenny Omobranchus punctatus. Ballast water (I. bicolor, C. hellerii, and O. punctatus) and aquaculture activities (L. vannamei and M. rosenbergii) in adjacent areas are the most likely vectors of introduction. All exotic species found have potential impact risks to the environment because they are able to compete against native species for resources (food and habitat). Isognomon bicolor share the same habitat and food items with the native bivalve species of mussels and barnacles. Litopenaeus vannamei share the same habitat and food items with the native penaeids such as the pinkspot shrimp Farfantepenaeus brasiliensis, the Southern brown shrimp Farfantepenaeus subtilis, and the Southern white shrimp Litopenaeus schmitti, and in the past few years L. vannamei was responsible for a viral epidemics in the cultivation tanks that could be transmitted to native penaeid shrimps. Charybdis hellerii is also able to cause impacts on the local fisheries as the species can decrease the populations of native portunid crabs which are commercialized in the studied region. Macrobrachium rosenbergii may be sharing natural resources with the Amazon River prawn Macrobrachium amazonicum. Omobranchus punctatus shares habit with the native redlip blenny Ophioblennius atlanticus and other fishes, such as the frillfin goby Bathigobius soporator. Some immediate remedial measures to prevent further introductions from ballast water and shrimp farm ponds should be: (i) to prevent the release of ballast water by ship/vessels in the region; (ii) to reroute all effluent waters from shrimp rearing facilities through an underground or above-ground dry well; (iii) to install adequate sand and gravel filter which will allow passage of water but not livestock; (iv) outdoor shrimp pounds located on floodable land should be diked, and; (v) to promote environmental awareness of those directly involved with ballast water (crews of ship/vessels) and shrimp farms in the region. Rev. Biol. Trop. 58 (3): 909-923. Epub 2010 September 01.
En el Área de Protección Ambiental del Delta Del Río Parnaíba, noreste de Brasil fueron detectadas cinco especies acuáticas invasoras (un molusco, tres crustáceos y un pez): la ostra de dos colores Isognomon bicolor, el camarón patiblanco Litopenaeus vannamei, el camarón gigante de río Macrobrachium rosenbergii, el cangrejo nadador del Indo-Pacifico Charybdis hellerii y el blenio hocicudo Omobranchus punctatus. El agua de lastre (I. bicolor, C. hellerii, y O. punctatus) y la acuicultura (L. vannamei y M. rosenbergii) en áreas adyacentes son los vectores de introducción más probables. Todas las especies exóticas encontradas son potencialmente riesgosas para el ambiente ya que son aptas para competir con las nativas por recursos como alimento y hábitat. Charybdis hellerii también podría causar impacto en el recurso pesquero local, al reducir las poblaciones de cangrejos portúnidos nativos, comercializados en el área de estudio.
Subject(s)
Animals , Animal Migration , Crustacea/physiology , Ecosystem , Fishes/physiology , Mollusca/physiology , Brazil , Conservation of Natural Resources , Crustacea/classification , Fishes/classification , Mollusca/classification , RiversABSTRACT
Since the nineteenth century ships have been using ballast water (BW) for safety, stability, propulsion and maneuverability, as well as to redress loss of fuel weight and water consumption, and to maintain structural stress at acceptable levels. Ballast water has been spreading many non-native species around the globe, but little is known about the extent and potential significance of ship-mediated transfer of microorganisms. The global movements of ballast water by ships create a long-distance dispersal mechanism for human pathogens that may be important in the worldwide distribution of microorganisms, as well as for the epidemiology of waterborne diseases. Only a few studies have been carried out on this subject, most of them involving ballast water containing crustacean larvae and phytoplankton. Specialized microbiological studies on these waters are necessary to avoid a repeat of what happened in 1991, when epidemic cholera was reported in Peru and rapidly spread through Latin America and Mexico. In July of 1992, Vibrio cholerae was found in the USA and the Food and Drug Administration (FDA) determined that it came from ballast water of ships whose last port of call was in South America. In Brazil, just a few studies about the subject have been performed. An exploratory study by the Brazilian National Health Surveillance Agency (Agência Nacional de Vigilância Sanitária - ANVISA) found in ballast water different microorganisms, such as fecal coliforms, Escherichia coli, Enterococcus faecalis, Clostridium perfringens, coliphages, Vibrio cholerae O1 and Vibrio cholerae non-O1. Until now, Brazil has been focusing only on organisms transported to its territory from other countries by ballast water, to avoid their establishment and dissemination in Brazilian areas. Studies that can assess the probability that water ballast carries pathogenic microorganisms are extremely important, as is the examination of ships that arrive in the country. Treatment of the human...
Subject(s)
Cholera/epidemiology , Public Health , Vibrio cholerae/pathogenicity , Water PollutionABSTRACT
Since the nineteenth century ships have been using ballast water (BW) for safety, stability, propulsion and maneuverability, as well as to redress loss of fuel weight and water consumption, and to maintain structural stress at acceptable levels. Ballast water has been spreading many non-native species around the globe, but little is known about the extent and potential significance of ship-mediated transfer of microorganisms. The global movements of ballast water by ships create a long-distance dispersal mechanism for human pathogens that may be important in the worldwide distribution of microorganisms, as well as for the epidemiology of waterborne diseases. Only a few studies have been carried out on this subject, most of them involving ballast water containing crustacean larvae and phytoplankton. Specialized microbiological studies on these waters are necessary to avoid a repeat of what happened in 1991, when epidemic cholera was reported in Peru and rapidly spread through Latin America and Mexico. In July of 1992, Vibrio cholerae was found in the USA and the Food and Drug Administration (FDA) determined that it came from ballast water of ships whose last port of call was in South America. In Brazil, just a few studies about the subject have been performed. An exploratory study by the Brazilian National Health Surveillance Agency (Agência Nacional de Vigilância Sanitária - ANVISA) found in ballast water different microorganisms, such as fecal coliforms, Escherichia coli, Enterococcus faecalis, Clostridium perfringens, coliphages, Vibrio cholerae O1 and Vibrio cholerae non-O1. Until now, Brazil has been focusing only on organisms transported to its territory from other countries by ballast water, to avoid their establishment and dissemination in Brazilian areas. Studies that can assess the probability that water ballast carries pathogenic microorganisms are extremely important, as is the examination of ships that arrive in the country. Treatment of the human infections caused by BW exists but none is completely safe and efficient.
ABSTRACT
As listagens de espécies são importantes para conhecer a biodiversidade local. Se as espécies são nocivas e/ou exóticas, elas podem causar danos ambientais. O levantamento da biota aquática de regiões portuárias é valioso para informar quais as espécies de alto risco estão presentes na água (espécies exóticas e/ou nocivas). As espécies podem ser capturadas quando os navios estão atracados nos portos do Paraná durante a tomada de lastro. Então, estas espécies podem ser transferidas para o próximo porto onde será realizado o deslastro, iniciando-se o processo de invasão biológica. Neste artigo as diatomáceas marinhas e estuarinas do Paraná foram listadas com base em trabalhos publicados desde 1918 e nos resultados do projeto ALARME (Agua de Lastro: Análise de Risco, Plano de Manejo Ambiental e Monitoramento de Espécies Exóticas no Porto de Paranaguá, Paraná) no Complexo Estuarino de Paranaguá. Um total de 789 táxons específicos foram registrados, distribuídos em 167 gêneros. Destes, 575 táxons específicos, distribuídos em 152 gêneros, foram registrados para o Complexo Estuarino de Paranaguá. Algumas destas espécies são consideradas potencialmente nocivas, por sua produção de toxinas, como Amphora coffaeformis e Pseudo-nitzschia spp. Outras possuem efeitos nocivos por causarem anoxia devido ao excesso de biomassa que é decomposta por bactérias em períodos de florações. Além disso, pode ocorrer consumo excessivo de oxigênio pelas algas durante a respiração. Estas espécies são Asterionellopsis glacialis, Cerataulina pelagica, Coscinodiscus spp., Cylindrotheca closterium, Leptocylindrus spp. e Skeletonema costatum. Além destas, Chaetoceros spp. possuem setas que danificam as brânquias de peixes, causando massiva mortandade destes em algumas regiões. Algumas espécies encontradas nas amostras do projeto ALARME são novos registros para a costa do Paraná como Bellerochea horologicales, Biremis circumtexta, Gyrosigma macrum, Licmophora remulus,...
The species check-lists are important to know the local biodiversity. If they are harmful and/or exotic they can cause environmental damages. The portuary regions' aquatic biota survey is valuable to inform which are the high risk species in the water (exotic or harmful species). The species can be caught when the ships are anchored in Parana harbors during the ballast taken. After that, these species can be transferred to the next harbor where it will be discharged, so it starts the biological invasion. In this article the marine and estuarine diatoms of Parana have been listed based on some issues that have been published since 1918 and over the results of ALARME Project (Ballast Water: Risk analysis, Environmental Management Plan and Monitoring of Exotic Species in Paranagua Harbor, Parana) in the Estuarine Paranagua Complex. An amount of 789 specific taxa was recorded and distributed in 167 genera on Parana shore. Among the 789 a number of 575 specific taxa is distributed in 152 genera which were recorded in the Estuarine Paranagua Complex. Some of these species are considered potentially harmful for their toxins production i. e. Amphora coffaeformis and Pseudo-nitzschia spp. The other ones have harmful effects because of anoxia due to the excess of biomass decomposed by bacteriae during the blooming periods. Furthermore it can happens excessive oxygen consumption by algae during breathing. These species are Asterionellopsis glaciallis, Cerataulina pelagica, Coscinodiscus spp, Cylindrotheca closterium, Leptocylindrus spp and Skeletonema costatum. Furthermore, Chaetoceros spp, have setae that damage the fishes' gills causing mass mortalities in some regions. Some species found in samples of the ALARME project are new records for the Parana coast such as Bellerochea horologicales, Biremis circumtexta, Gyrosigma macrum, Licmophora remulus, Nitzschia behrei, Pseudo-nitzschia calliantha, P. multisseries and Thalassiosira subtilis var. máxima.