RESUMO -Estudos morfométricos e socioambientais foram realizados na bacia hidrográfica do rio Monte Sinai, em Carlinda, MT, visando à criação de subsídios para a sua sustentabilidade ambiental. Para tanto, foram utilizados dados SRTM 90 m, reamostrados para 30 m, para a geração do modelo digital de elevação e dados SPOT (10 m), para a avaliação do uso e cobertura da terra, através de técnicas de SIG. Além disso, foram feitas entrevistas semiestruturadas com os moradores locais e visitas de campo. Os resultados apontaram que a bacia apresenta padrão dentrítico de quarta ordem. A razão altimétrica, declividade, densidade de drenagem e fator de forma indicaram forte controle estrutural da drenagem da bacia hidrográfica. Entretanto, o atual uso e cobertura da terra, dominada por pastagens e mata ciliar degradada, favorecem os processos erosivos e, consequentemente, a perda da ferlitiladade do solo e o assoreamento dos cursos d'água. Foram apontados indicadores de degradação, assim como estratégias de manejo adequadas à melhoria ambiental que venham contribuir e garantir a sustentabilidade ambiental da bacia.Palavras-chave: Recursos hídricos, Amazônia, Gestão e Planejamento Ambiental. MORPHOMETRIC AND SOCIO-ENVIRONMENTAL ANALYSIS OF AN AMAZONIAN WATERSHED, CARLINDA, MT, BRAZIL ABSTRACT -Morphometric and environmental studies were performed in Monte Sinai
A good understanding of the mechanisms and magnitude of the impact of invasive alien species on ecosystem services and biodiversity is a prerequisite for the efficient prioritisation of actions to prevent new invasions or for developing mitigation measures. In this review, we identified alien marine species that have a high impact on ecosystem services and biodiversity in European seas, classified the mechanisms of impact, commented on the methods applied for assessing the impact and the related inferential strength, and reported on gaps in available information. Furthermore, we have proposed an updated inventory of 87 marine species in Europe, representing 13 phyla, which have a documented high impact on ecosystem services or biodiversity.Food provision was the ecosystem service that was impacted by the greatest number of alien species (in terms of both positive and negative impacts). Following food provision, the ecosystem services that were negatively affected by the highest number of alien species were ocean nourishment, recreation and tourism, and lifecycle maintenance, while the ecosystem services that were most often positively impacted were cognitive benefits, water purification, and climate regulation. In many cases, marine aliens were found to impact keystone/protected species and habitats. Thirty percent of the assessed species had an impact on entire ecosystem processes or wider ecosystem functioning, more often in a negative fashion. Forty-nine of the assessed species were reported as being ecosystem engineers, which fundamentally modify, create, or define habitats by altering their physical or chemical properties.The positive impacts of alien species are probably underestimated, as there is often a perception bias against alien species. Among the species herein assessed as high-impact species, 17 had only negative and 7 only positive impacts; for the majority (63 species), both negative and positive impacts were reported; the overall balance was often unknown. Although there is no doubt that invasive species have modified marine ecosystems, evidence for most of the reported impacts is weak, as it is based on expert judgement or dubious correlations, while only 13% of the reported impacts were inferred via manipulative or natural experiments. A need for stronger inference is evident, to improve our knowledge base of marine biological invasions and better inform environmental managers.
Hydrilla verticillata is an aquatic macrophyte recently found in the Upper Paraná River floodplain. This species has a high potential to reproduce and disperse to new sites, mainly through stem fragments. In this study, we evaluated the colonization (the ability of roots to develop), regeneration (the ability of lateral shoots to develop) and growth rates of this species using fragments of different lengths that originated from different plant parts. We selected parts with and without apical tips, each 5 and 10 cm long, and the following hypothesis was tested: the fragments with apical tips have greater colonization and regeneration abilities than fragments without apical tips, and these abilities depend on the fragment length. Our results showed that both fragments with and without tips presented the same number and dry weight of roots and shoots and thus did not differ in their colonization or regeneration abilities. The length was important for the colonization ability, as 10 cm fragments produced more roots than 5 cm fragments. The high colonization and regeneration abilities from different fragments coupled with the high growth rates exhibited by H. verticillata may account for its rapid spread in novel habitats and its competitive success over native species. Thus, we suggest that the inadequate management of this species, resulting in the formation of fragments, especially of large lengths, may have important implications with regard to its infestation of new sites. KEY WORDS: Fragmentation · Exotic species · Non-native species · Aquatic weedResale or republication not permitted without written consent of the publisher Aquat Biol 16: 197-202, 2012 1999, Coetzee et al. 2009), and, due to this feature, the mechanical removal or harvesting of this species is rarely successful. Accordingly, the management of this species has proven to be problematic (Hershner & Havens 2008). Stem fragments, which are mainly produced by the mechanical breakage of plants, float away from the original colonies and settle in the sediment (Madsen & Smith 1999). These fragments exhibit 2 survival strategies: (1) the development of roots and rapid establishment in the sediment (colonization) and (2) the development of new propagules that can be dispersed (regeneration) (Southwood 1988, Barrat-Segretain & Bornette 2000.Hydrilla verticillata recently invaded the Upper Paraná River Floodplain (UPRF) in Brazil (Sousa et al. 2009(Sousa et al. , 2010, and the potential for the spread of this exotic species is of particular concern because of the negative impacts associated with its occurrence in aquatic ecosystems (Posey et al. 1993, Hofstra et al. 1999, Wang et al. 2008. However, the main mechanism of dispersion/colonization of H. verticillata in the UPRF is most likely via small fragments (Sousa et al. 2009). Thus, to verify which type of fragments might increase the establishment success of this species, we evaluated the ability of H. verticillata to colonize, regenerate and grow from fragments that originated from differ...
The coastal region of the São Paulo state (Southeastern Brazil) is marked by the presence of the Serra do Mar, a system of mountain ranges with altitude up to 1,000 m. Due to the difference of proximity of the mountain range to the coastline, the coastal plains have different width. As a consequence, the rivers that cross the plains also have different length, greater or less influence of marine waters and slope variation. We carried on an inventory of aquatic macrophyte species in order to assess the species and life form richness and latitudinal distribution in this region. Macrophytes were inventoried at 100 sampling sites in eight rivers (between 9 and 19 sites per river) in March 2017. General descriptions on taxonomic aspects, life forms and frequency of occurrence of the macrophytes were explored. We recorded 45 taxa of aquatic macrophytes belonging to 24 families. Three species are exotic, but they presented low frequencies of occurrence. The vast majority of the taxa have emergent life form. Floating and submerged macrophytes were found in only two rivers. The most frequent species were Crinum americanum L. (Asparagales, Amaryllidaceae), Spartina alterniflora Loisel. (Poales, Poaceae) and Schoenoplectus californicus (C. A. Mey.) Soják (Poales, Cyperaceae). Most taxa are rare in terms of occurrence. Only four species occurred along a large part of the north-south stretch sampled and these, possibly, have a wide tolerance to the variation in resource requirements and salinity. The north-south gradient of the taxa occurrence may be related to the diversity of environmental characteristics due to differences in the rivers length and coastal plains width.
1. The coastal rivers of the São Paulo State in SE Brazil have different lengths and seawater influence. We evaluated whether: (1) environmental heterogeneity (EH) is associated with the species and life-form richness of aquatic macrophytes; and (2) EH and geographical distance influence species composition in these coastal rivers. 2. We recorded the macrophyte species and life form occurrence and collected explanatory variables characterising the water, sediment, and river channel at 100 sampling sites over 8 rivers. We applied a principal component analysis to the explanatory variables and calculated the rivers' EH using the range of principal component 1 scores. We also determined the position of each river mouth along the coastline to measure the distance between the rivers. We used quasi-Poisson generalised linear models to evaluate the effects of EH on richness of species and life forms. To determine the effect of EH and geographical distance (Euclidean distance matrices) on the variation in species composition (Jaccard dissimilarity matrix) among the rivers, we applied multiple regressions on distance matrices. 3. The most heterogeneous river had heterogeneity score about five times greater than the least heterogeneous river. Sediment salinity, river width, total phosphorus concentration of water and distance from river mouth were the most important variables contributing to the rivers' EH. We found that EH did not explain variation in species richness; however, it had a significant positive relationship with life-form richness. The effect of EH was greater than that of the geographical distance on the variation in species composition among the rivers. The pairs of rivers with the most similar EH were the most similar in species composition, but not all of them were geographically close. 4. We conclude that EH influences life-form richness but does not influence species richness of aquatic macrophytes in the coastal rivers we studied; however, EH does influence species composition regardless of geographical distance among rivers. K E Y W O R D S aquatic plants, coastal plain, estuaries, macrophyte composition, river heterogeneity | 1895 NUNES Et al. 1 | INTRODUC TI ON Environmental heterogeneity (EH) has been reported as one of the main factors that explain species diversity (Reynolds, Hungate, Chapin, & D'Antonio, 1997), as it can promote high species richness
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