Tag Archives: Africa

More Photos of Rare Saharan Cheetah and Other Wildlife

Photo of a sand cat by Thomas Rabeil of the Sahara Conservation Fund

In March of 2009 we posted about photos of the rare Saharan cheetahs caught on wildlife cameras. Recently more photos have been released by the Sahara Conservation Fund showing a ghostly cheetah and other wild cats and other wildlife, including this wonderful photo of a sand cat.

Elusive Saharan Cheetah Captured in Photos

The animal is so rare and elusive scientists aren’t sure how many even exist, though they estimate from the few observations they’ve made of the animal and tracks that fewer than 10 individuals call the vast desert of Termit and Tin Toumma in Niger home. Fewer than 200 cheetahs probably exist in the entire Sahara.
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Their home can reach sizzling temperatures up to 113 degrees Fahrenheit (45 degrees Celsius), and is so parched no standing water exists. “They probably satisfy their water requirements through the moisture in their prey, and on having extremely effective physiological and behavioral adaptations,”
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The Saharan cheetah is listed as critically endangered on the 2009 IUCN Red List of Threatened Species.

Camera trap photo of Saharan cheetah at night

The elusive Saharan cheetah in Niger, Africa. Sahara Conservation Fund

The photos are part of the Sahara Carnivores Project

The Saharan race of cheetah (Acynonix jubatus hecki) is very rare, and one of the most specialized and threatened in Africa. As part of a major strategy to conserve Sahelo-Saharan wildlife, in collaboration with the Sahara Conservation Fund we are establishing a project to study and protect Saharan carnivores in the Termit/Tin Toumma region of north Niger. We aim to improve our understanding of sympatric Saharan carnivores, and evaluate the impact of human activities on carnivore populations, and that of carnivore predation on livestock. One of the projects aims is to produce an action plan prepared jointly with local land-users to minimize human-carnivore conflict in the Termit/Tin Toumma.

More ghostly cheetah photos: blurry and walking away

‘Ghostly’ Saharan cheetah filmed in Niger, Africa

it not yet known if Saharan cheetahs are more closely related to other cheetahs in Africa, or those living in Iran, which make up the last remaining wild population of Asiatic cheetahs.
Saharan cheetahs appear to have different colour and spot patterns compared to common cheetahs that roam elsewhere in Africa.
However, “very little is known about the behavioural differences between the two cheetahs, as they have never been studied in the wild,” says Dr Rabeil.
“From observations of tracks and anecdotal reports they seem to be highly adaptable and able to eke out an existence in the Termit and Tin Toumma desert.”

Other posts of animals filmed with remote wildlife monitoring cameras: Sumatran Tiger and Cubs – Jaguars Back in the Southwest USA – Scottish Highland Wildcats – Rare Chinese Mountain Cat

Photos by John Hunter of cheetahs and other animals in Kenya.

The Sahara Wasn’t Always a Desert

Green Sahara

For much of the past 70,000 years, the Sahara has closely resembled the desert it is today. Some 12,000 years ago, however, a wobble in the Earth’s axis and other factors caused Africa’s seasonal monsoons to shift slightly north, bringing new rains to an area nearly the size of the contiguous United States. Lush watersheds stretched across the Sahara, from Egypt to Mauritania, drawing animal life and eventually people.
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by some 3,500 years ago the desert had returned. The people vanished.
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The twilight of the Green Sahara around 4,500 years ago might have been the perfect time to be hunting at Gobero, said Carlo Giraudi, the team’s geologist. As water sources dried up throughout the region, animals would have been drawn to pocket wetlands, making them easier to kill. Four middens found on the dunes and dated to around that time included hundreds of animal remains, as well as fish bones and clamshells—not usually part of a herder’s diet. “The Green Sahara’s climate was rapidly changing,” said Giraudi, “but just before the lake dried up, the people at Gobero would have thought they were living in a golden period.”

There are many values of science: letting our curious minds learn, giving us cool robots and gadgets and letting us learn about the past (and thus about the ever-changing world we live in).

sOccket: Power Through Play

In a fun example of appropriate technology and innovation 4 college students have created a football (soccer ball) that is charged as you play with it. The ball uses an inductive coil mechanism to generate energy, thanks in part to a novel Engineering Sciences course, Idea Translation. They are beta testing the ball in Africa: the current prototypes can provide light 3 hours of LED light after less than 10 minutes of play. Jessica Matthews ’10, Jessica Lin ’09, Hemali Thakkara ’11 and Julia Silverman ’10 (see photo) created the eco-friendly ball when they all were undergraduates at Harvard College.

sOccket creators: Jessica Matthews, Jessica Lin, Hemali Thakkara and Julia Silverman

They received funding from: Harvard Institute for Global Health and the Clinton Global Initiative University. The

sOccket won the Popular Mechanics Breakthrough Award, which recognizes the innovators and products poised to change the world. A future model could be used to charge a cell phone.

From Take part: approximately 1.5 billion people worldwide use kerosene to light their homes. “Not only is kerosene expensive, but its flames are dangerous and the smoke poses serious health risks,” says Lin. Respiratory infections account for the largest percentage of childhood deaths in developing nations—more than AIDS and malaria.

Watch a June 2010 interview on the ball:
Continue reading →

Robot Built Largely From Old TV Parts

Unfortunately I can’t find any additional information – other than what is in the webcast. Sam Todo,
a student in Lome, Togo, Africa, built this robot almost entirely from old TV parts.

South African Fossils Could be New Hominid Species

South African fossils could be new hominid species

The fossils of a female adult and a juvenile male – perhaps mother and son – are just under two million years old. They were uncovered in cave deposits at Malapa not far from Johannesburg.

Researchers tell the journal Science that the creatures fill an important gap between older hominids and the group of more modern species known as Homo, which includes our own kind. The team has assigned the name Australopithecus sediba to their finds.

“It’s at the point where we transition from an ape that walks on two legs to, effectively, us,” lead scientist Professor Lee Berger of the University of the Witwatersrand told BBC News.

“I think that probably everyone is aware that this period of time – that period between 1.8 and just over two million years [ago] – is one of the most poorly represented in the entire early hominid fossil record. You’re talking about a very small, very fragmentary record,” he explained.
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Their bones were laid down with the remains of other dead animals, including a sabre-toothed cat, antelope, mice and rabbits. The fact that none of the bodies appear to have been scavenged indicates that all died suddenly and were entombed rapidly.

“We think that there must have been some sort of calamity taking place at the time that caused all of these fossils to come down together into the cave where they got trapped and ultimately buried,” said team-member Professor Paul Dirks from James Cook University in Queensland, Australia.

All were preserved in the hard calcified clastic sediment that formed at the bottom of a pool of water.

$100,000 Lemelson-MIT Award for Sustainability

[Sadly the video was made private so I removed it. It is disappointing how often people fail to follow decade old usability advice to make internet urls permanent]

According to the United Nations, more than 40 percent of Africans live in poverty, subsisting on less than US$1 a day. As co-founder and CEO of the nonprofit social enterprise KickStart, Fisher develops and markets moneymaking tools such as low-cost, human-powered irrigation pumps that improve the lives of small-scale rural farmers – the majority of the poor in sub-Saharan Africa.

“These poor rural farmers have one asset: a small plot of land; and one basic skill: farming. The best business they can pursue is irrigated farming,” Fisher explained. “Once they employ irrigation, the farmers can grow and sell high-value crops, like fruits and vegetables. They can grow year-round and reap four or five harvests, instead of waiting for the rain to grow a staple crop once or twice a year.”

Electric Wind

photo of William Kamkwamba on his windmill from his blog.

I have written about William Kamkwamba before: Inspirational Engineer – Home Engineering: Windmill for Electricity. And along with the post, Make the World Better, donated to his cause. His new book, The Boy Who Harnessed the Wind, is quite enjoyable and provides an interesting view of how he persevered. His talk of the famine, not being able to afford school and putting together a windmill using scrape parts and a few books from the library (donated by the American government – much better foreign aid than all the military weapons that are often counted as aid) is inspirational. And should help many sitting in luxury understand the privileged lives they lead.

“I’d become very interested in how things worked, yet never thought of this as science. In addition to radios, I’d also become fascinated by how cards worked, especially how petrol operated an engine. How does this happen? I thought? Well, that’s easy to find out – just ask someone with a car… But no one could tell me… Really how can you drive a truck and not know how it works?” (page 66)

“Using Energy, and this book has since changed my life… All I needed was a windmill, and then I could have lights. No more kerosene lamps that burned out eyes… I could stay awake at night reading instead of going to bed at seven with the rest of Malawi. But most important, a windmill could also rotate a pump for water and irrigation.” (page 158)

William set out to demonstrate his windmill for the first time to a skeptical crowd saying (page 193)

“Let’s see how crazy this boy really is.”… “Look,” someone said. “He’s made light!”… “Electric wind!” I shouted. “I told you I wasn’t mad!”

I like how the story shows how long, hard work, reading, experimenting and learning is what allowed William to success (page 194-5)

For the next month, about thirty people showed up each day to stare at the light. “How did you manage such a thing?” They asked. “Hard work and lots of research,” I’d say, trying not to sound too smug…
[to William’s father] “What an intelligent boy. Where did he get such ideas?”
“He’s been reading lots of books. Maybe from there?”
“They teach this in school?”
“He was forced to drop. He did this on his own.”

The diagram demonstrated twenty-four volts being transformed to two hundred forty. I knew voltage increased with each turn of wire. The diagram showed the primary coil to have two hundred turns, while the secondary had two thousand. A bunch of mathematical equations were below the diagram – I assumed they explained how I could make my own conversions – but instead I just wrapped like mad and hoped it would work. (page 200)

Soon I was attacking every idea with its own experiment. Over the next year, there was hardly a moment when I wasn’t planning or devising some new scheme. And though the windmill and radio transmitter had both been successes, I couldn’t say the same for a few other experiments. (page 215)

William is now attending the African Leadership Academy in South Africa, with an amazing group of classmates. See how you can support the Moving Windmills Projects.

Monkey Bridge

Monkey see Monkey do

When you visit Diani Beach, Kenya’s version the Florida keys, look up and you’ll see 20 rope bridges swinging over the highway – what’s that little bulge with a tail? Before you flash by, you will realise that it’s a monkey sitting up there. Yes it’s watching you! And then, a burst of action as an entire troop of black and white might start galloping across the wildly swaying bridge!
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Being naturally shy, the colobus initially stared at the bridges gadgets with disdain until the more inquisitive and daring Sykes monkey began to see the logic. Once the Sykes and even vervet monkeys started using the bridges, the colobus followed suit, and are now very comfortable with their arboreal walkways.

William Kamkwamba on the Daily Show

Pointy haired bosses removed the video. Argh!

William Kamkwamba on the Daily show. I first posted about William’s great work in 2007 – Home Engineering: Windmill for Electricity. What a great example of what can be done by sharing scientific and engineering ideas with those who will make the effort to create workable solutions.

William has written a book on his life: The Boy Who Harnessed the Wind.

Appropriate Technology: Solar Water in Poor Cairo Neighborhoods

Cairo Slums Get Energy Makeover

Since 2003 the nonprofit Solar CITIES project has installed 34 solar-powered hot water systems and 5 biogas reactors in Cairo’s poor Coptic Christian and Islamic neighborhoods.
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Solar CITIES’ hot water systems are constructed from recycled materials and are uniquely tailored to the parts of a city where water and electricity availability are often sporadic. “The problem with professional solar hot water systems is that they’re made for cities with continuous water,” Culhane said. By contrast, Solar CITIES’s water heaters use a city’s water when it’s available but draw from a backup storage tank when it’s not.

The setup consists of an insulated rectangular box covered in clear glass or plastic on one side. Inside the box are copper tubes wrapped in sheets of aluminum, which are painted black. Sunlight striking the darkened aluminum is converted to heat, which is then used to warm water flowing through the pipes. The glass sheet on top of the box prevents the heat from being carried away by wind.
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Solar CITIES also installs biogas reactors, which are based on designs Culhane saw while working in India. The reactors use microbes harvested from animal guts to break down food wastes into flammable gas that can be used for cooking and heating. If necessary, the reactors can draw hot water from the solar water heaters to maintain the warm temperatures the bacteria need to survive.

By attaching a simple plastic tube to the reactors, gas can be piped down several stories for residents to use. “In 24 hours, you’ve got 2 hours of cooking gas from yesterday’s cooking garbage,” Culhane said. The biogas reactors provide a more reliable supply of cooking gas than most residents currently have.

Awesome, I love to see people using engineering to make life better for those that can truly use help.