ESA Details ExoMars Cameras Which Will Help Study the Red Planet
The European Space Agency (ESA) and Russia’s Roscosmos plan to launch their joint Mars rover mission in 2022. It was earlier planned to take off in 2020, but got delayed for several reasons. The main cause behind the delay is that the journey from Earth to Mars is only attempted when the planets are favourably aligned. As the agencies are again gearing up for the launch of the ExoMars “Rosalind Franklin” vehicle, the ESA has shared an Instagram post explaining the incredible features of the cameras aboard it and how they intend to explore the Red Planet.
“These eyes are ready for Mars,” ESA said, sharing a video and some images captured by the cameras. It said the cameras are capable of clicking pictures in panorama and close-up techniques. They can also take 3D maps and a wheel selfie. Currently, the rover is testing the wide range of its photo settings ESA added that engineers have packed as much science as they could into the camera system.
Here’s a look at the cameras and their features in five quick points:
- The Panoramic Camera suite, known as PanCam, is the scientific eyes of the rover. While humans and smartphones can only see colours in visible light, PanCam can ‘see’ in 19 colours in the visible and near-infrared wavelengths.
- There are two wide-angle cameras (WACs), which are set 50cm apart. The pair captures what is in front of the rover from 2m above the ground. Each WAC has a filter wheel to look at the colours of the rocks and the Martian sky. This will allow the rover to stare at the Sun, measure the amount of dust in the atmosphere and water vapour content during sunsets on Mars.
- Then there’s a High-Resolution Camera (HRC). It has a resolution of eight times the wide-angle cameras. This helps in closely examining rock texture and grain size in colour.
- Below it is the Infrared Spectrometer (ISEM). It analyses the geochemistry of the rocks. “HRC and ISEM are a well-matched couple. They are co-aligned so that scientists can see in the HRC images where ISEM took its measurements,” explains ESA.
- Another camera will be used to take Martian shots and it will be tested in the coming days. The Close-Up Imager, CLUPI, will provide detailed views of the soil that is churned out by the drilling action.
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Three live dire wolf pups have been born using reconstructed DNA. The extinct species had last roamed North America around 12,500 years ago. The milestone was reached by a Dallas-based biotech firm that focuses on genetic conservation. Ancient DNA samples from fossilised remains were analysed. Modern gene-editing tools were used to mimic key characteristics of the extinct predator. These pups were brought to life by implanting modified embryos into domestic dog surrogates. The young wolves have been named Romulus, Remus and Khaleesi.
Ancient DNA edited in lab to recreate species
According to a study shared by Colossal Biosciences, DNA samples had been collected from two ancient dire wolf fossils. One was a 13,000-year-old tooth, while the other was a 72,000-year-old skull fragment. These fragments were compared to modern wolf relatives and grey wolves were chosen for DNA alteration because of their evolutionary proximity. Gene sequences that were found only in dire wolves were isolated. These were introduced into the DNA of grey wolves through targeted editing.
Cloning technique used to implant embryos
The altered genetic material was inserted into grey wolf egg cells after removing their original nuclei. These prepared cells were placed inside domestic dogs. Each surrogate received multiple embryos. Interestingly, only one embryo survived in each of the first two dogs. Both gave birth by caesarean section, while the third pup was born in a second round of implantation.
Physical traits match fossil record
The new pups have been observed to develop features consistent with known dire wolf fossils. Thick white coats, larger teeth and body structure have been reported. These results came from identifying changes in 14 genes. The gene edits were introduced using CRISPR technology.
The same company had previously cloned red wolves. The team had also created “woolly mice” as part of a mammoth revival effort. The successful dire wolf birth marks a new phase in gene-driven species restoration.
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Lightning is commonly considered a sign of disaster in the forest, as lightning kills or damages trees. On the lowlands of Panama, the tonka bean tree (Dipteryx oleifera) might have evolved to capitalize on this natural occurrence. New research suggests that lightning strikes could help the tonka bean tree (Dipteryx oleifera). According to Live Science research, these trees not only survive these electrical interactions unharmed, but the lightning also harms their competitors and the parasitic vines that cling to the tonka bean plants.
The researchers published their findings on March 26 in the journal New Phytologist. Lightning is a major cause of tree mortality in tropical forests, particularly among the largest and oldest trees, which play important roles in carbon storage and biodiversity.
Lightning as a Canopy Weapon
On average, each lightning hit destroyed over 2.4 tons (2 metric tons) of adjacent tree biomass and approximately 80 percent of the lianas (parasitic vines) that plagued the tonka bean canopy. As per Gora’s assumption, the key to these trees’ lightning resistance comes from their physical structure.
A few studies describe the tree as having strong internal conductivity, letting lightning current flow through without building up damaging heat like a well-insulated wire. Because they tend to grow large — up to 130 feet (40 meters)—and live for centuries, a single tonka bean tree is estimated to be struck at least five times after reaching maturity. Each strike helps to clear out vines and competitors, opening up the canopy to help it thrive.
Ecological Impact and Evolutionary Marvel
Gregory Moore, a horticulturalist from the University of Melbourne who was not involved in the study, thinks the results will apply to other species. “The sort of work could also apply to other tree-dominated plant communities, such as woodlands or low woodlands where trees are widely separated, so it’s nothing like a tropical forest,” he said, adding that other tall trees are also possible targets of lightning strikes.
More Than Just a Tree
“We have long known that some trees can withstand multiple lightning strikes,” Moore said, noting that some tall trees survive Australian bushfires and grow up towering over their neighbors, making them prime targets for lightning strikes. “They are often referred to as stags because the top of the crown has been blown out, but they can survive for centuries after being hit by lightning,” he added.
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