The world's top scientists and researchers are always pushing to discover, prove, and create innovations in the world of science and technology. Their breakthroughs alter life on Earth and change our perception of reality. The greatest scientific discoveries are an inspiring testament to the profound capabilities of the human mind. Each year, scientists make incredible discoveries. What scientists learned in 2017 could help them make new advances in 2018, and scientific discoveries in 2018 can influence 2019 scientific advancements.
This list of 2019 scientific discoveries features breakthroughs and recent informative works that span a wide range of disciplines. From learning new things about the worlds beyond our planet to unlocking possibilities within our very cells, these breakthroughs will give you hope for the future even in bleak times.
The latest in science news is inspirational for a new generation of thinkers who will continue to push the boundaries of human capability. Read on to find out the biggest discoveries of 2019 and the latest scientific advancements.
On July 28, 2019, the first southern white rhinoceros conceived through successful artificial insemination in North America was born at the San Diego Zoo Safari Park in healthy condition. Victoria, the mother, endured 493 days of pregnancy and 30 minutes of labor after being inseminated by a frozen sample from a southern white rhino named Maoto on March 22, 2018. The calf, whose name is Edward, is male.
The birth marks a major step toward preserving the nearly extinct species of the northern white rhinoceros, a close relative of the southern white rhino. As of 2019, only two northern white rhinos are known to exist, and both are female. Because the San Diego Zoo's conservation organization has proven a healthy birth is possible following hormone-induced ovulation and artificial insemination, the institute now plans to convert 12 individual northern white rhino cells into stem cells that could develop into sperm and eggs.
Eventually, scientists hope to use artificial insemination or in vitro fertilization and embryo transfer to impregnate surrogate southern white rhinos with northern white rhino embryos, effectively saving the species. This process could take another 10 to 20 years.
In the meantime, the 100th southern white rhino born at the San Diego Zoo Safari Park, and the second conceived through artificial insemination, was born on November 21. The calf, named Future because of what her birth represents for rhino conservation, quickly began exhibiting signs of healthy, natural rhino instincts. Apparently, rhinos are known to use mud as sunscreen and bug repellant, and according to zookeeper Marco Zeno, her "new favorite thing is mud. She sees a puddle and she wants to roll in it!"
Lucy Hughes, a product design student at the University of Sussex, created a compostable compound that could replace single-use plastic in products such as bakery bags, sandwich packs, and tissue boxes. The product, the result of her final-year project, is called MarinaTex, presumably because its main ingredient is byproducts of the fishing industry. She combined chitosan from crustaceans and agar from red algae with fish skins and scales to produce an effective and stable product.
Hughes told Reuters she was trying to figure out how to "add value" to the 50 millions tons of fish waste produced globally every year. She noticed the skin and scales she found were "flexible, yet pliable, and strong," similarly to plastic we use daily.
Hughes won the international James Dyson Award for her invention; she plans to use the $41,000 reward money to improve MarinaTex and build a business plan for mass distribution.
Samuel Tisherman and his team of medics from the University of Maryland School of Medicine told New Scientist they placed one patient in suspended animation for the first time, in November. Technically speaking, the process of suspended animation is called emergency preservation and resuscitation (EPR), and the goal is to "make it possible to fix traumatic injuries" that could otherwise result in the patient's demise.
As part of an extended trial, patients who are sent to the University of Maryland Medical Center with "acute trauma" will undergo EPR, allowing emergency surgeons to operate for two hours as opposed to the five minutes usually allotted when someone is admitted facing cardiac arrest. EPR works by "replacing all of [a patient's] blood with ice-cold saline," consequently lowering their body's temperature from approximately 98 to nearly 50 degrees, decreasing brain activity. They are then disconnected from the cooling system so surgeons can operate before their heart restarts.
Tisherman's trial, approved by the FDA, compares 10 patient's who undergo emergency EPR to 10 who do not. The medical center allowed the local community the opportunity to opt out the trial in advance, as, in the event of an emergency situation, they cannot provide consent, and no alternative treatments are available. The results of the trial are expected by the end of 2020.
In October 2019, Google AI researchers announced they had successfully built a quantum computer. The results of their experiment, in which they tested the computer against the world's fastest supercomputer, were published in Nature. Google claimed it would take the world's fastest supercomputer 10,000 years to solve their benchmark testing, but it took the quantum computer, called Sycamore, 200 seconds to complete.
The researchers wrote in Nature that they compared their "quantum processor against state-of-the-art classical computers in the task of sampling the output of a pseudo-random quantum circuit." Google suggested that for a classic supercomputer, "emulating such quantum circuits typically takes an enormous amount of effort," but Sycamore can process the test at an exceptionally high rate.
Quantum computing has been discussed for over 30 years, but physicists have wondered if it was worth investing in. Google researchers said they devised the Quantum Supremacy Experiment to test the possibility of making "a computer that is both programmable and powerful." Google developed a 54-qubit processor for the experiment comprising "fast, high-fidelity quantum logic gates." The experiment was exceptionally difficult, however, the researchers said in Nature: "In order to claim quantum supremacy we need a quantum processor that executes the program with sufficiently low error rates," since the 54-qubit processor is "sensitive to errors."
IBM researchers Edwin Pednault, John Gunnels, and Jay Gambetta argued Google's claims could be misleading because the "threshold" for "quantum supremacy," which "was [originally meant] to describe the point where quantum computers can do things that classical computers can't," has not been met. And apparently, "an ideal simulation of the same task [Google performed on Sycamore] can be performed on a classical system in 2.5 days and with far greater fidelity."
Google researchers said their main objective moving forward is to find valuable applications for quantum computing, and that they are working "to build a fault-tolerant quantum computer as quickly as possible."