A few years back scientists became aware that Amazonian manatees (Trichechus inunguis) migrate from shallow to deep water each year, starting in October or November when the dry season makes the water level decrease in their favoured habitat. A team of Brazilian and British researchers now claim have found out why these mesmerizing creatures undertake a perilous journey to get to a habitat that doesn’t have much to offer food wise.

By studying manatees living in the Mamiraua and Amana Sustainable Development Reserves in north-western Brazil, the team found out that if the manatees wouldn’t move, the animals would be become stranded in the shallow water and exposed to predators such as caimans and jaguars.

“Amazonian manatees migrate to a habitat that doesn’t offer easy living conditions in order to flee from a habitat that becomes inhospitable,” says team-member Dr Eduardo Moraes Arraut from the National Institute for Space Research in Sao Paulo, Brazil.

A dangerous voyage
In order to reach deeper waters, the manatees must pass through narrow bottlenecks in the landscape where they easily fall prey to predators – including humans. Hunting manatee is illegal in Brazil but the local people have a long tradition of eating the meat.

Once the manatees reach their destination, it isn’t much of a relief either. Due to a lack of aquatic plants in their new home, they are forced to go without food for several months.

“When you have two options that are not good, you choose the one that is less bad,” Dr Arraut explains, adding that the harshness of the low-water conditions surprised him.

Modern technology and ancient knowledge
In order to learn more about the elusive manatees, the international research team asked local inhabitants about the movements of the manatees, and placed modern radio tracking devices on 10 individual manatees. What they found was that the Amazon landscape forces the manatees to migrate through a type of narrow lakes known as rias, a type of submerged river valleys.

Dr Arraut now wishes to track manatees in other parts of the Amazon to find out if they are facing similar obstacles as the populations in Mamiraua and Amana.

The findings have been published in the Journal of Zoology.

http://www.zsl.org/info/publications/

A gentle giant
The Amazon manatee is one of the smallest species of manatee but can nevertheless reach a length of 9.2 ft (2.8 m) and weight 800-1200 lbs (360-540 kg). It is only found in the Amazon River basin, in the countries Brazil, Peru, Colombia, Guyana and Ecuador.

During the high-water season (mid-May to late June), the Amazon manatees live in quiet lakes (so called varzeas) that form within river flood plains in the Amazon. In this hospitable environment, they feast on aquatic plants and typically consume 8% of their weight in greens each day. For a manatee weighing 800 lbs, that means 64 lbs – almost 30 kg!

Picture is depicting a manatee in Florida (not an Amazonian Manatee)

A new species of Jupiaba tetra has been described by Brazilian ichtyologists Birindelli, JLO, AM Zanata, LM Sousa and AL Netto-Ferreira.

The fish has been given the name Juipaba kurua, a name derived from the type locality; the Curuá River which is part of the Xingu River drainage. The river name Curuá comes from the tupo language kurua.

Researchers analysed the gut content of these fishes to find out more about their habits and the results indicate that Juipaba kurua is an omnivore clearwater species that feeds along the entire length of the water column.

The faint dark Juipaba kurua is differs from its close relatives by sporting an elongate humeral blotch, a distinct dark spot on the caudal peduncle, and a pattern of dark spots on most of the scales on the sides of the body. The fish has teeth cusps of similar size and the lower jaw teeth gradually decrease in size posteriorly. The number of branched anal-fin rays varies from 21 to 24.

The description of Juipaba kurua was published in the latest issue of the journal Neotropical Ichthyology.

Birindelli, JLO, AM Zanata, LM Sousa and AL Netto-Ferreira (2009) New species of Jupiaba Zanata (Characiformes: Characidae) from Serra do Cachimbo, with comments on the endemism of upper rio Curuá, rio Xingu basin, Brazil. Neotropical Ichthyology 7, pp. 11–18.

Two new species of the genus Leporinus has been described from the Araguaia-Tocantins River system in the Amazon basin: Leporinus unitaeniatus and Leporinus geminis.

Brazilian ichthyologists Julio Garavello and Geraldo Santos describe them both in a paper* published in the most recent issue of Brazilian Journal of Biology.

Leporinus unitaeniatus

Leporinus unitaeniatus derives its name from its distinguishing colour pattern; uni is the Latin word for one and taenia means ribbon. This fish is adorned with a conspicuous longitudinal dark brown bar along the lateral line on the flanks. Other distinguishing characteristics are the slender and elongated body, the narrow snout, and the small eyes. The mouth is sub-inferior and filled with elongated, incisor-like teeth forming a straight cutting edge. There are 42–44 lateral line scales; 6 scale rows above and 5 scale rows below the lateral line; and 16 circumpeduncular scales.

Picture credit: http://www.scielo.br

Leporinus geminis

Juvenile Leporinus geminis fish look very similar to juveniles of the close relative Leporinus unitaeniatus, hence the name Leporinus geminis. Geminius is the Latin word for twin.

Leporinus geminis is decorated with three large and vertically elongated brown blotches on the trunk and has one inconspicuous dark bar on the body. The body is deep, the snout is blunt, and the eyes are large. The mouth is sub-inferior and fitted with large incisor-like teeth forming a curved cutting edge. There are 40–42 lateral line scales; 5.5 or 6 scale rows above and 5 scale rows below the lateral line; and 16 circumpeduncular scales.

Picture credit: http://www.scielo.br

* Garavello, JC and GM Santos (2009) Two new species of Leporinus

Agassiz, 1829 from Araguaia-Tocantins system, Amazon basin, Brazil (Ostariophysi, Anostomidae). Brazilian Journal of Biology 69, pp. 109–116.

A new species of ghost knifefish has been described by ichthyologists James Albert and William Crampton. It has been given the name Compsaraia samueli in honour of Samuel Albert who presented the scientists with the type specimens.

Ghost knifefish (family Apteronotidae) are famous for their body shape and for using a high frequency tone-type electric organ discharge (EOD) to communicate. The native home of these fishes are South and Central America. Within the aquarium hobby, the Black ghost knifefish (Apteronotus albifrons) and Brown ghost knifefish (Apteronotus leptorhynchus) are fairly common.

Samuel’s ghost knifefish lives in the western Amazon of Peru and Brazil and was collected from flooded beaches and deep river channels. It can be distinguished from its close relatives by having a higher number of caudal-fin rays and a less tapering body shape in lateral profile.

Other distinctive features are the relatively short caudal peduncle and the comparatively small body size (as an adult). The mature male sports an extremely slender and elongated snout and engages in sparring with repeated aggressive non-contact postures, usually followed by jaw-locking and biting.

If you wish to learn more about Samuel’s ghost knifefish, see the paper: Albert, JS and WGR Crampton (2009) A new species of electric knifefish, genus Compsaraia (Gymnotiformes: Apteronotidae) from the Amazon River, with extreme sexual dimorphism in snout and jaw length. Systematics and Biodiversity[1] 7, pp. 81–92.

Genus: Compsaraia

New species: Compsaraia samueli

The cichlid genus Crenicichla now has two new described members: Crenicichla tesay and Crenicichla mandelburgeri.

Crenicichla tesay

Crenicichla tesay lives in the Paraná River drainage and was described by Argentinian ichthyologists Jorge Casciotta and Adriana Almirón. The fish was caught in the Iguazú River upstream of Iguazú falls in Argentina, an environment characterized by falls and pools with clear and rapidly flowing water. The bottom in this habitat consists of stones, mud and sand.

The name Crenicichla tesay is derived from the Guaraní word for tears; the fish displays a tear-shaped suborbital stripe. You can distinguish Crenicichla tesay from its close relatives by the existence of a serrated posterior preopercle border, the number of scales on the E1 row, the length of the snout, and the colour pattern which consists of a suborbital stripe, 4–6 dark blotches and numerous irregularly scattered dots on the sides of the body.

The description has been published in the journal Revue Suisse de Zoologie[1]. For more information, see the paper: Casciotta, J and A Almirón (2008) Crenicichla tesay, a new species of cichlid (Perciformes: Labroidei) from the río Iguazú basin in Argentina. Revue Suisse de Zoologie 115, pp. 651–660.

Crenicichla mandelburgeri

Just like Crenicichla tesay, this newly described cichlid hails from the Paraná River drainage. It was described by Swedish ichthyologist Sven Kullander and named Crenicichla mandelburgeri in honour of Paraguayan ichthyologist Darío Mandelburger.

The Crenicichla mandelburgeri specimens were collected from two different environments. Some lived in the rapids of a large stream (5-10 meters wide and up to 1 meter deep) with turbid, brownish water. Others lived in a much smaller stream (up to 3 meters wide) with shallower brown water where both velocity and transparency fluctuated. In this environment, the bottom consisted of stones and sand and was generally without any plants.

Young Crenicichla mandelburgeri cichlids feature numerous narrow vertical bars along the side, which changes into an irregular dark horizontal band as the fish matures. You can also distinguish Crenicichla mandelburgeri from other crenicichlas by the distinct caudal blotch, the number of scales in the lateral row and in the E1 row, the lower jaw (which is longer than the upper), and the serrated preopercular margin.

For more information, see the paper: Kullander, SO (2009) Crenicichla mandelburgeri, a new species of cichlid fish (Teleostei: Cichlidae) from the Paraná river drainage in Paraguay. You can find it in Zootaxa 2006: 41–50.[2]

Crenicichla

Crenicichla is the cichlid genus where you can find the largest number of described species, about 75 species. They live on the South American continent where they inhabit freshwater rivers, streams, pools and lakes. The richest variation of species is encountered in the Amazon region, but you can find Crenicichla cichlids as far north as Guyana, Venezuela and Colombia and as far south as Uruguay and central Argentina where the water can become fairly cold in the winter.

This post will introduce a number of new catfish species, a couple of tetras and an a few cichlid species.

Let’s start with the cichlid species. The species known as Apistogramma sp Mamore have been scientifically described by Wolfgang Staeck and Ingo Schindler and named A. erythrura. It is a small species and the largest speciemen that have been found so far was 30.8 mm SL. (just over 1.2 inch). It seems to feed on small invertebrates. Thy can be found in waters with the following conditions pH 5.2–6.4; electrical conductivity <10–20 μS/cm; total and temporary hardness < l°dH; water temperature 25.1–31.0°C. They are cave spawners and can be bred in aquariums. The male guards a territory which can contain several females. The females guard the fry.

Scientists Felipe Ottoni and Wilson Costa from Brazil have in the latest issue of the journal Vertebrate Zoology described nine new species of Australoheros cichlids from southern Brazil[1].

Australoheros autrani, A. Barbosae, A. ipatinguensis, A. macacuensis, A. muriae, A. paraibae, A.s robustus, A. saquarema

New tetras

Two new species of flag tetra have been described[2]. Both species originates in Venezuela. The new species Hyphessobrycon paucilepis and H. tuyensis was described by Carlos García-Alzate, César Román-Valencia and Donald Taphorn in the latest issue of the journal Vertebrate Zoology. At the same time they recognize three other valid species: H. diancistrus, H. fernandezi and H. sovichthys.

Hyphessobrycon paucilepis originates from the small drainages in Lara state, northern Venezuela. H. tuyensis from the Tuy River drainage in northern Venezuela

New catfish species

Brazilian scientists Héctor Alcaraz, Weferson da Graça and Oscar Shibatta have in the latest issue of the journal Neotropical Ichthyology named a new species of bumblebee catfish from Paraguay Microglanis carlae as attribute to ichthyologist Carla Pavanelli[3]. The species is found in moderately fast flowing water in Paraguay River drainage.

Brazilian ichthyologists Luisa Sarmento-Soares and Ronaldo Martins-Pinheiro have described three new Tatia species bringing the total number of described species up to twelve[4]. The three new species described are T. caxiuanensis (named after the Floresta Nacional de Caxiuanã.), T. meesi (named after Gerloff Mees) and T. nigra (named after its dark color)

T. caxiuanensis is found in the Floresta Nacional de Caxiuanã, T. meesi in Essequibo River drainage in Guyana and T. nigra in the Uatumã and Trombetas river drainages.

Marcelo Rocha, Renildo de Oliveira and Lúcia Py-Daniel have described a new Gladioglanis catfish, Gladioglanis anacanthus, which can be found in the Aripuanã River in central Brazil[5].

Lúcia Py-Daniel and Ilana Fichberg have described a new whiptail catfish, Rineloricaria daraha. This new species is found in the Rio Daráa in the Rio Negro drainage which have given the species its name[6].

Wild-caught pets are often recommended against, since the harvest of wild caught specimen may deplete wild populations. In the Brazilian rainforest, the harvesting of popular aquarium species such as cardinal tetras have however helped prevent deforestation and made it possible for local residents to earn a living without resorting to logging, mining, cattle ranching, and slash-and-burn agriculture.

“All this is very counter-intuitive,” says Scott Dowd, an Amazon biologist at the New England Aquarium who has been researching the dark acidic waters of Rio Negro, a major Amazon tributary in Northern Brazil, for the past two decades. “You would think biologists would not want to take fish out of the rainforest. But the fish are the key to miminizing deforestation. The people’s other economic options – timber harvest, cattle ranching and gold mining – are environmental disasters.”
The Rio Negro region has been a major fish exporter for over half a century and 60 percent of local populations rely in this source of income for their sustenance. Since deforestation is known to be detrimental to the survival of financially valuable fish species like the cardinal tetra fish, the Brazilian government has protected the Rio Negro rainforest from logging and burning – at least until now. The situation may be about to change dramatically as more and more aquarium shops switch from wild-caught fish to farm-raised specimens. Wild-caught specimens are used to the dark, soft and highly acidic water conditions of Rio Negro, while farm-raised fish tend to be acclimatized to common tap-water conditions (i.e. clear water that is not very soft or acidic) and therefore easier to keep.

To prevent the market for wild-caught Rio Negro fish from collapsing, Dowd is participating in a “Buy a Fish, Save a Tree” campaign. “The local fisheries look like they are headed for collapse”, Down explains. “But there’s hope that this threat can be addressed. If you ask fish hobbyists if they care about the environment, a very high percentage say they care about it deeply.”

Dowd hopes that the “Buy a Fish, Save a Tree” branding will help Brazilian fish harvesters to benefit from the growing trend of cause labelling, such as Fair Trade and FSC (Forest Stewardship Council).

Another important step in making wild-caught Rio Negro fish a popular alternative to farmed-raised specimens is to adapt them to normal aquarium conditions, and the New England Aquarium is therefore helping local fishermen to efficiently acclimatize wild-caught tetras to a pH-value around 7.0.

Dowd also hope to take advantage of the Internet, by assigning lot numbers to every batch of aquarium fish caught in Rio Negro. “Imagine if you could go online and see a video of the actual fisherman who caught your tropical fish, says Dowd. “I want hobbyists to know directly how their choices can affect people thousands of miles away and how they can make a contribution to saving the rainforest. Things don’t look good, but we can begin to turn all of this around.”

Today we have the pleasure of bringing you a unique interview with Marc van Roosmalen which illustrates his situation and problems as he sees them. For those of you who aren’t familiar with who Marc van Roosmalen is, what he has done, and his present situation, I recommend reading this short introduction before reading the interview.

Thanks for taking the time to answer our questions Marc!

You have discovered a number of different species. Was finding one of them more special than finding the others? Is it still as much fun to find new species as it was when you found your first new species?

Marc G.M. van Roosmalen (MGMvR): Most fun but also most time and energy consuming for me was finding the ‘Land of Dermis’, where the relatives of Dermis occur – the baby black-capped dwarf marmoset that was delivered on my Manaus doorstep April 1996. With decades of experience in keeping all kinds of primates in halfway houses I knew right away that Dermis represented a new species of monkey and, undoubtedly, also a new primate genus. That event instantly took away the scepsis in me as a primatologist that nowadays it would be impossible to find new species of primates hitherto unknown to science. The quest that followed to find the monkey’s distribution somewhere in the huge Rio Madeira Basin had me stumbling into a Conan Doyle type of ‘Lost World’ – the Rio Aripuanã Basin – a hotspot of biodiversity that I soon recognized to be a totally new ecosystem within Amazonia, whose fauna and flora had never before been inventoried by naturalists, animal collectors, botanists and ornithologists alike. It took me a number of boat surveys to find Callibella humilis, a needle in a haystack as big as France. During innumerable surveys of the local rainforest and through interviews with the locals showing pictures of Dermis I happened to identify at least five other hitherto undescribed primates in the area.

Other highly memorable discoveries were those of some large terrestrial mammals whose existence I did not know of until I had close encounters with them while hiking alone through the forest. First spotting of a giant peccary (Pecari maximus) family silently crossing my trail while I was watching a group of Gray sakis in the canopy, or a group of dwarf peccaries (Pecari?) bumping literally into my feet while chasing one another through the undergrowth. And, back in camp, asking the locals what the hell the creature was that I had come upon that day…

Nowadays, under the Lula regime, it is not so much fun anymore to find new species because you run the risk to get caught in the ‘criminal’ act of collecting and transporting living evidence to support the validity of your find. To be able to publish it in a peer reviewed scientific journal you need at least to collect and deposit holotype material in a Brazilian museum. Without the proper collecting permits – a federal “license to kill” you can apply for in Brasilia, but never get granted – you seriously run the risk to be thrown in jail on accusation of what officials in Brazil call “biopiracy”. That is when you – like me – still collect, transport or keep alive any biological sample that could serve as holotype material or for DNA analysis in order to determine the phylogenetic and taxonomic status of your find. This way they make it impossible for Brazilian as well as foreign scientists to carry out biodiversity studies so needed for a sound nature conservation policy.

What do you feel when you finally find a species you have been looking for during a long time?

MGMvR: In the field you really feel yourself catapulted back in time, following the footsteps of the great naturalists such as Alexander von Humboldt, Wallace, Bates, Spruce, Spix & Martius. Little progress has been made in the Brazilian Amazon ever since my natural-history heroes collected and described a large part of the Amazonian flora and fauna. In this euphoria one tends to forget that times have changed. That having the great privilege to pick up the thread these icons left behind some 150-200 years ago is now considered a ‘criminal act against nature’.

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Born in the Netherlands in 1947, Marc van Roosmalen is a Brazilian primatologist of Dutch birth living in Manaus, Brazil. After studying biology at the University of Amsterdam he did four years of doctoral fieldwork in Suriname studying the Red-faced Spider Monkey. Since then, van Roosmalen has devoted his life to the scientific exploration of the South American flora and fauna.

Marc van Roosmalen is described as a hand-on naturalist and has spent long periods of time doing research work in the Amazonian rainforest, while simultaneously producing prolific amounts of scientific papers, books, reviews, and wildlife documentaries. His work has led to the discovery and description of several new species, such as Callibella humilis, the dwarf marmoset, the second smallest monkey in the world, and Lecythis oldemani, a tree belonging to the Brazil Nut family. From 1986 to 2003, van Roosmalen served as senior scientist at the National Institute for Amazonian Research (INPA) under the Brazilian Ministry of Science and Technology.

Parallel to his research work, van Roosmalen is a dedicated conservationalist trying to protect the Brazilian rainforest from destruction by humans. During the late 1980s, he launched “The Center for the Rehabilitation and Re-introduction of Endangered Wildlife” in the federal Rio Cuieiras Nature Reserve; a centre where all kinds of animals, but especially monkeys confiscated from the illegal pet trade, were rehabilitated in the local rain forest. In 1999, he founded the NGO “Amazon Association for the Preservation of High Biodiversity Areas” (AAPA) and began purchasing areas of pristine rainforest in regions harboring extremely high biodiversity and/or animals and plants new to science.

For his outstanding work in South America, van Roosmalen has received several honors and was knighted as Officer in the Order of the Golden Ark by Prince Bernhard of the Netherlands in 1997. At the turn of the millennium, van Roosmalen was selected as one of the worldwide recognized “Heroes for the Planet” by Time Magazine.

You can read about van Roosmalen’s current predicament in our interview with him which is found here. More information can also be found in this Wired article and this article published by the Smithsonian institution.

“For if there are out there big tree-dwelling, ground-dwelling and even aquatic mammals not known to science – a dwarf tapir, a giant peccary, a white deer, a dwarf manatee, another river dolphin, to name a few – what do we really know about its flora and fauna? Very Little. About its ecology – the utterly complex web of relationships between plants and animals? Even less. Then what do we know about the sustainability of this ecosystem? Absolutely nothing.”

– Marc van Roosmalen

I thought I would write a few words about some of the many good fish cams that are available on the net even though they sometime can be hard to find among all the bad ones.

I would like to start by mentioning the Amazon River cam that is provided by the Smithsonian national zoological park. This cam allows you to follow the action in a Amazon river basin aquarium containing turtles, piranhas, arapaima and red tailed catfish. You can view this camera here . The Smithsonian national zoological park website also offers a webcam where you can see cats fish as well as a number of other good animal web cams.

The Oregon Museum of Science and Industry features a salmon can where you can see young salmon that is growing up in aquarium. You can watch this cam in your browser or in your media player. On the negative side can be said that it can be hard to see any fish on this feed.

Myfishcam.com offers a koi fish webcam that can be interesting to watch. Click here to watch. Sometimes this feed only work in Media player and not in the browser.

Biotactic Fish & Wildlife features a web came that show the life in Grand River, Ontario, Canada. During the days this cam provides color pictures and during the night it provide infrared imagery. Recent sightings in this cam includes rockbass spawning, crayfish mating, predation. Visit the camera now.

You might also want to step by the fish-school.com cam. Here you can se them training their goldfish comet using the training methods they have developed and teaching others to use. The feed is empty between training sessions but there are archived clips that you can see if there is nothing going on in the live feed. You can see that camera, here

A Couple of Other Aquarium website i stumbled on while looking for these:

Fish Med: Everything you should know to cure and prevent aquarium fish disease