Reprodução, treinamento alimentar e larvicultura do peixe folha, Monocirrhus polyacanthus (Heckel, 1840) (Polycentridae, perciformes) em laboratório

O peixe folha está presente em toda a bacia amazônica, e é frequentemente explorado pelo comércio de peixe ornamental. Há diminuição do seu estoque devido à pesca ornamental. Informações são escassas sobre sua biologia de forma que estas seriam úteis para seu cultivo e poderão favorecer a inclusão social dos pescadores ornamentais amazônicos e diminuição da pesca extrativista. Como é, de forma geral, muito difícil obter estas informações por observações realizadas diretamente na natureza, uma alternativa viável é realizar tal estudo por meio de experimentos controlados em laboratório. Assim este trabalho visou gerar informações a respeito da reprodução, do treinamento alimentar e da larvicultura, utilizando diferente condutividade e substrato para reprodução e desova, diferentes formas de substituição do alimento vivo para o inerte, diferentes concentrações de alimento vivo em diferente densidade de estocagem do peixe folha, bem como submetendo estes a substâncias dita profiláticas. Assim foi possível saber que o uso de água com condutividade baixa (osmose reversa) tem um importante papel na reprodução do peixe estudado. Que uso de larvas de peixe congelada como alimento inerte no treinamento alimentar do peixe folha proporciona melhores taxas de ganhos de peso e comprimento quando comparado aos demais alimentos testados. Que tipo de alimento fornecido para larvas de peixe folha, independente da densidade de estocagem, neste período de desenvolvimento, interferiu no desempenho produtivo, sem influenciar os parâmetros de qualidade de água, sendo que o alimento vivo, Moina minuta, apresentou melhores resultados de ganho de peso, crescimento, fator de condição relativo e sobrevivência. O extrato aquoso de Terminalia catappa e azul de metileno são as substâncias estuda mais recomendadas para larvicultura desta espécie. Embora o uso do sal por 5 dia também possa ser recomendado.

Competencia de Sicyos polyacanthus en caña de azúcar

Se realizó este ensayo con el objeto de medir los efectos de la competencia permanente y especifica de S. polyacanthus sobre el cultivar CP 74-2005 en la localidad de Monte Rico (27º21'S-65º36'W, Tucumán-Argentina). El diseño experimental, completamente aleatorizado, se estableció en un cañaveral infestado naturalmente. Las parcelas fueron de 64 m² con cuatro surcos de diez metros de largo. Los efectos de la competencia fueron medidos en tres niveles de infestación: Alta (superior a 5 pl m-2), Media (1-4 pl m-2) y Baja (inferior a 1 pl m-2). Las mediciones se efectuaron sobre los dos surcos centrales de la parcela; para altura se analizó el promedio de diez mediciones por infestación y por repetición; y para producción de caña y de azúcar se trabajó con una muestra de caña por parcela, extraída del mismo sitio. Los efectos de la maleza en distinto grado de infestación sobre la altura del cañaveral fueron altamente significativos respecto del testigo obteniéndose pérdidas del 48,58% en baja infestación. En el número de tallos se encontraron pérdidas significativas en los diferentes niveles llegando a 61,87% en infestación alta. En la producción de caña por hectárea se produjeron perdidas de 43,89% en infestación media, mientras que en la producción de azúcar se registraron perdidas de 42,28 y 20,38% en infestación alta y baja respectivamente.

Physiological plasticity to water flow habitat in the damselfish, Acanthochromis polyacanthus: linking phenotype to performance

The relationships among animal form, function and performance are complex, and vary across environments. Therefore, it can be difficult to identify morphological and/or physiological traits responsible for enhancing performance in a given habitat. In fishes, differences in swimming performance across water flow gradients are related to morphological variation among and within species. However, physiological traits related to performance have been less well studied. We experimentally reared juvenile damselfish, Acanthochromis polyacanthus, under different water flow regimes to test 1) whether aspects of swimming physiology and morphology show plastic responses to water flow, 2) whether trait divergence correlates with swimming performance and 3) whether flow environment relates to performance differences observed in wild fish. We found that maximum metabolic rate, aerobic scope and blood haematocrit were higher in wave-reared fish compared to fish reared in low water flow. However, pectoral fin shape, which tends to correlate with sustained swimming performance, did not differ between rearing treatments or collection sites. Maximum metabolic rate was the best overall predictor of individual swimming performance; fin shape and fish total length were 3.3 and 3.7 times less likely than maximum metabolic rate to explain differences in critical swimming speed. Performance differences induced in fish reared in different flow environments were less pronounced than in wild fish but similar in direction. Our results suggest that exposure to water motion induces plastic physiological changes which enhance swimming performance in A. polyacanthus. Thus, functional relationships between fish morphology and performance across flow habitats should also consider differences in physiology.

Meine Polyacanthus cupanus

Von Franz Harres

Seawater carbonate chemistry, length, mass and otholith development of spiny damselfish Acanthochromis polyacanthus during experiments, 2011

Determining which marine species are sensitive to elevated CO2 and reduced pH, and which species tolerate these changes, is critical for predicting the impacts of ocean acidification on marine biodiversity and ecosystem function. Although adult fish are thought to be relatively tolerant to higher levels of environmental CO2, very little is known about the sensitivity of juvenile stages, which are usually much more vulnerable to environmental change. We tested the effects of elevated environmental CO2 on the growth, survival, skeletal development and otolith (ear bone) calcification of a common coral reef fish, the spiny damselfish Acanthochromis polyacanthus. Newly hatched juveniles were reared for 3 wk at 4 different levels of PCO2(seawater) spanning concentrations already experienced in near-reef waters (450 µatm CO2) to those predicted to occur over the next 50 to 100 yr in the IPCC A2 emission scenario (600, 725, 850 µatm CO2). Elevated PCO2 had no effect on juvenile growth or survival. Similarly, there was no consistent variation in the size of 29 different skeletal elements that could be attributed to CO2 treatments. Finally, otolith size, shape and symmetry (between left and right side of the body) were not affected by exposure to elevated PCO2, despite the fact that otoliths are composed of aragonite. This is the first comprehensive assessment of the likely effects of ocean acidification on the early life history development of a marine fish. Our results suggest that juvenile A. polyacanthus are tolerant of moderate increases in environmental CO2 and that further acidification of the ocean will not, in isolation, have a significant effect on the early life history development of this species, and perhaps other tropical reef fishes

A new species of Sickesia (Laniatores: Stygnidae: Opiliones) and new records for the State of Piauí, Brazil

Sickesia tremembe sp. nov. is described from Piauí, Northeast Brazil (type-locality: Sete Cidades National Park, Brasileira and Piracuruca municipalities). It differs from S. usta and S. helmuti by the clavate male femur IV and chelicerae segment I with a pair of large tubercles on retrolateral surface. The Stygnidae Stygnus polyacanthus (Mello-Leitão, 1923); the Cosmetidae, Gryne pluriarcuata Mello-Leitão, 1936 and undetermined species of Paecilaema and Gryne and also representatives of Escadabiidae and Sclerosomatidae (Gagrellinae) are recorded from this state, for the first time.

Effects of elevated CO2 on fish behaviour undiminished by transgenerational acclimation

Behaviour and sensory performance of marine fishes are impaired at CO2 levels projected to occur in the ocean in the next 50-100 years, and there is limited potential for within-generation acclimation to elevated CO2. However, whether fish behaviour can acclimate or adapt to elevated CO2 over multiple generations remains unanswered. We tested for transgenerational acclimation of reef fish olfactory preferences and behavioural lateralization at moderate (656 µatm) and high (912 µatm) end-of-century CO2 projections. Juvenile spiny damselfish, Acanthochromis polyacanthus, from control parents (446 µatm) exhibited an innate avoidance to chemical alarm cue (CAC) when reared in control conditions. In contrast, juveniles lost their innate avoidance of CAC and even became strongly attracted to CAC when reared at elevated CO2 levels. Juveniles from parents maintained at mid-CO2 and high-CO2 levels also lost their innate avoidance of CAC when reared in elevated CO2, demonstrating no capacity for transgenerational acclimation of olfactory responses. Behavioural lateralization was also disrupted for juveniles reared under elevated CO2, regardless of parental conditioning. Our results show minimal potential for transgenerational acclimation in this fish, suggesting that genetic adaptation will be necessary to overcome the effects of ocean acidification on behaviour.

Contrasting effects of ocean acidification on reproduction in reef fishes

Differences in the sensitivity of marine species to ocean acidification will influence the structure of marine communities in the future. Reproduction is critical for individual and population success, yet is energetically expensive and could be adversely affected by rising CO2 levels in the ocean. We investigated the effects of projected future CO2 levels on reproductive output of two species of coral reef damselfish, Amphiprion percula and Acanthochromis polyacanthus. Adult breeding pairs were maintained at current-day control (446 µatm), moderate (652 µatm) or high CO2 (912 µatm) for a 9-month period that included the summer breeding season. The elevated CO2 treatments were consistent with CO2 levels projected by 2100 under moderate (RCP6) and high (RCP8) emission scenarios. Reproductive output increased in A. percula, with 45-75 % more egg clutches produced and a 47-56 % increase in the number of eggs per clutch in the two elevated CO2 treatments. In contrast, reproductive output decreased at high CO2 in Ac. polyacanthus, with approximately one-third as many clutches produced compared with controls. Egg survival was not affected by CO2 for A. percula, but was greater in elevated CO2 for Ac. polyacanthus. Hatching success was also greater for Ac. polyacanthus at elevated CO2, but there was no effect of CO2 treatments on offspring size. Despite the variation in reproductive output, body condition of adults did not differ between control and CO2 treatments in either species. Our results demonstrate different effects of high CO2 on fish reproduction, even among species within the same family. A greater understanding of the variation in effects of ocean acidification on reproductive performance is required to predict the consequences for future populations of marine organisms.