News and Events

12th of May 2021

Seti: how microbes could communicate with alien species

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15th of March 2021

The Aftermath of Empire – Reappraisal and Reconciliation (Part 2)

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15th of March 2021

The Aftermath of Empire – Reappraisal and Reconciliation (Part 1)

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1st of January 2021

Revisiting Panspermia with Prof. Chandra Wickramasinghe

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November 2020

Lecture on "An Interconnected Cosmic Biosphere & Space Entrepreneurship"

by Prof Chandra Wickramasinghe

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October 2020

Poster on Sir Fred Hoyle

This has won the joint first place in a International Space University competition

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October 2020

An interview with the International Space University

18th of July 2020

Viruses & Evolution from Space

July 2020

Microbial Lucy in the Sky, but no Diamonds

April 2020

Viruses are part of evolution


Intercontinental Spread of COVID-19 on Global Wind Systems

'Prof Chandra Wickramasinghe has led an international group of epidemiologists, physicists and biomedical scientists to investigate the global spread of the Covid-19 virus.

The pattern of the early stages of the Covid epidemic, affecting countries mainly in the 30-50oN latitude zone is explained by dust carrying the virus being spread by a circum-global jet-stream. The sub-tropical jet-stream in the high-altitude troposphere lies above northern China in the early spring-time so is a likely carrier. Similar transport of the Kawasaki disease from north-east China to Japan and California is already well established. The new study extends this description to hypothesize that wind-borne dust similarly carried the Covid virus over southern USA states, thence across the Atlantic to Portugal and further states to the east. On this model the primary in-fall of the infective dust depends on the jet-stream interaction with regional weather systems, causing the incidence of Covid cases in various countries underneath the jet-stream. The exceptional case of Brazil could be due to the Azores cyclonic weather system west of Portugal diverting part of the jetstream into the south-westerly trade winds during spring-time when these winds penetrate to Brazil.

Our study implies that dust particles, including invisible microdust, protect the virus from the destructive ultra-violet radiation and so can carry the infection around the globe. Air travel appears to be a lesser carrier. Urban dust also serves as a carrier within towns and cities. This could be vitally important for local policies to combat COVID-19. The filters on air conditioning systems in shops, offices and transport vehicles should be checked or upgraded and people should wear facemasks outdoors on urban streets at all times. When the virus is abundant in the environment, contact tracing plus isolation will be ineffective in suppressing it.

The use of facemasks in public spaces (replacing a 2 metre distancing rule) may be a way of unlocking the dreadful crisis faced by many industries, including theatre, music halls, restaurants etc."

Prof Chandra Wickramasinghe

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Viruses From Space And Related Matters

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23thof March 2020

Exclusive Q&A with Wickramasinghe:

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23thof March 2020

Space weather and pandemic warnings?

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02nd of March 2020

Did COVID-19 come from space?

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15th of February 2020

Scientist Claims Coronavirus Was Brought to Earth By a Meteorite

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03rd of February 2020

Scientists from the Ruhuna Centre for Astrobiology present the case for the new Corona virus coming from space following a fireball event over China on 11 November 2019

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28th of January 2020

In conversation with Prof. Chandra Wickramasinghe The role of microorganisms in serving mankind

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01st of January 2020

Beginners of life - by Prof. Chandra Wickramasinghe (Spaceflight)

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05th of November 2019

life in the cosmos from panspermia to exobiology - an exclusive interview with Prof. Chandra Wickramasinghe (Hera Magazine)

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07th of February 2017

Life of Chandra Wickramasinghe

07th of June 2018

Chandra Wickramasinghe on the NASA Mars announcement
"Panspermia increasingly vindicated"

Image Credits: NASA/JPL-Caltech/MSSS

The Tusk is honoured to maintain a digital acquaintance with distinguished Professor Chandra Wickramasinghe, who in the 1970s with Sir Fred Hoyle established — and to my mind proved empirically — the theory of Panspermia. We had been corresponding concerning the jaw-dropping recent genetic study when NASA announced today’s press conference. I asked Dr C to provide a statement for the Tusk concerning the findings, which were consistent with microbial life on Mars. He very graciously sent me the commentary below:

The recent announcement that there are organic molecules (possibly related to life) on Mars still falls short of the revelation that there is extant life lurking beneath the surface. That may not be far off, given all the indirect signs (eg seasonal variations of methane emissions), that have been recognised for some years.

The existence of microbial life on Mars has been a foregone conclusion, however, since it was discovered that Earth-microbes does indeed survive the most extreme and harshest imaginable conditions on our own planet. It has also been demonstrated in the laboratory that microbes embedded in dust particles and rocks are not all killed in the processes of high-speed expulsion and re-entry onto planets.

The range of conditions prevailing in those areas of Mars that have been explored over the past 50 years have surely included ample possibilities for the survival of Earth microbes, extremophiles as they are called; and we also know that rocks and meteorites have been exchanged between Mars and Earth on a more or less regular basis over hundreds of millions of years. There is no great surprise that our two planets make up a connected microbial biosphere. What is far more important is the connection of life, both on Earth and Mars, with locations (including comets) further out in the solar system as well as elsewhere in the galaxy. This is the form of panspermia theory that was developed by me and the late Sir Fred Hoyle beginning in the 1970s and for which there is now overwhelming evidence.

(See Steele et al, 2018: and (Wickramasinghe, Wickramasinghe, Tout et al, 2018;

o ignore this evidence and to maintain without any proof whatsoever that planet-bound abiogenesis, whether on Earth or Mars, is the only permissible way to understand the phenomenon of life is an error that might have adverse implications for the future of science.

Chandra Wickramasinghe

09th of May 2018

Viruses, ET and the octopus from space: the return of panspermia

The peer-reviewed journal Progress in Biophysics and Molecular Biology recently published a most remarkable scientific paper. With 33 authors from a wide range of reputable universities and research institutes, the paper makes a seemingly incredible claim. A claim that if true, would have the most profound consequences for our understanding of the universe. Life, the paper argues, did not originate on the planet Earth.

The response?

Near silence.

The reasons for this are as fascinating as the evidence and claims advanced by the paper itself. Entitled Cause of the Cambrian Explosion – Terrestrial or Cosmic?, the publication revives a controversial idea concerning the origin of life, an idea stretching back to Ancient Greece, known as panspermia.

The scientific orthodoxy concerning the origin of life is called abiogenesis. This suggests that at some point in the earth’s early history, conditions were favourable for the creation of complex organic chemistry that, in turn, led to the self-organisation of the first primitive life forms.

Much is understood about the process, but exactly how information came to be coded in nucleic acids (DNA and RNA) to form the system of genetic inheritance and expression, and how this transformed into life itself, remains unknown. The other slightly uncomfortable aspect of the abiogenic account is that it seems to take place in a surprisingly short amount of time. The theory requires that the "primordial soup" from which self-replicating RNA emerged formed within an 800 million year period following the stabilisation of the Earth's crust, a timeframe some researchers think is too narrow.

Despite its drawbacks and lack of detail, abiogenesis is the consensus, the only plausible hypothesis for the origin of life.

The panspermia hypothesis, however, disputes nearly every aspect of this story.

Of the 33 authors, Edward Steele and Chandra Wickramasinghe are the most well-known.

Steele, an Australian immunologist, has a history as something of a maverick. He has long championed the idea of inheritance of acquired characteristics, a theory first aired by Jean-Baptiste Lamarck, the French evolutionist prior to Darwin.

Although the latter much admired Lamarck’s work, most scientists have since discarded it. In 1979, Steele took a contrary position, advocating a neo-Lamarckian idea known as “somatic selection hypothesis", published in 1979. The later advent of epigenetics, and the discovery of horizontal gene transfer (HGT) in numerous microbial organisms have somewhat restored Lamarck’s tarnished reputation, with some biologists suggesting HGT represents "a form of (quasi)Lamarkian inheritance".

Wickramasinghe is a famed astronomer and astrobiologist with an illustrious career. He has held a string of professorships at Universities in both England and Sri Lanka, and has more than 70 publications in Nature.

One of his more notable contributions, along with his long-time collaborator, the late Sir Fred Hoyle, was the hypothesis that interstellar dust was partly made up of organic molecules, which Wickramasinghe went on to confirm experimentally. This finding prompted him to become a lifelong advocate of the panspermia hypothesis, publishing numerous papers on the topic.

Hoyle thus exerts a posthumous influence over the new paper. Originally Wickramasinghe’s PhD supervisor, he was an odd mix of genius and far-out ideas: he formulated the notion of stellar nucleosynthesis, the now well-established theory that says all elements heavier than helium are created through fusion in the hearts of stars. He also thought that the famous Archaeopteryx fossil, transitional between dinosaurs and birds, was a manufactured fake.

Astronauts working on the exterior of the International Space Station, which research has found to be covered in bacteria.
Astronauts working on the exterior of the International Space Station, which research has found to be covered in bacteria.
NASA/Science Source

Hoyle and Wickramasinghe developed the model of panspermia at the centre of the recent study. The new paper is a review of “the key experimental and observational data gathered over the past 60 years”, write the authors, “consistent with or predicted by the Hoyle-Wickramasinghe (H-W) thesis of Cometary (Cosmic) Biology”.

The H-W model holds, the authors state, “that life was seeded here on Earth by life-bearing comets as soon as conditions on Earth allowed it to flourish (at or just before 4.1 billion years ago); and living organisms such as space-resistant and space-hardy bacteria, viruses, more complex eukaryotic cells and organisms, … perhaps even fertilised ova and plant seeds, may have been continuously delivered ever since to Earth helping to drive further the progress of terrestrial biological evolution.”

In other words, the researchers suggest that abiogenesis did not happen on Earth and the main source of genetic novelty is not caused by the selection of naturally occurring advantageous mutations, but rather comes from a rain of extra-terrestrial living matter that integrates itself, via neo-Lamarckian mechanisms such as horizontal gene transfer, into the genomes of terrestrial life.

Beyond this, the model also postulates that various epidemics are caused by the arrival of viruses from space and that extra-terrestrial retroviruses drove the Cambrian explosion.

Not to mention that the octopus might well be an alien.

One might be tempted to laugh, if it weren’t for the volume of titillating evidence they present, and the nagging worry that the naysayers have been wrong before. For decades everyone knew, for example, that continents didn’t just go drifting about the place. Until they did.

But just because theories seen as crackpot by the scientific establishment have later been vindicated does not necessarily mean that is the case here.

The proof advanced “would support an extra-terrestrial origin of life,” writes commentator and evolutionary scientist Keith Baverstock from the University of Eastern Finland, puts it in the same issue of the journal, but is “not evidence that could not be explained in any other terms." In other words, the argument advanced by Steel and colleagues in plausible, but not convincing.

Nonetheless, the paper has withstood a year of intense peer review. As Steele points out to Cosmos, “It has thus passed some severe and tortuous tests already.” The tension between the evidence and the claims based on it make for uneasy reading.

Just as the field of Alzheimer’s research ponders if its main theory of many decades is wrong, perhaps it is worth entertaining a quaint notion: what if panspermia is right?

The paper is remarkable in tone. Far from the cautious claims of normal scientific literature, it is almost triumphant. “The consistency with panspermia of a vast swathe of new data,” Wickramasinghe tells Cosmos, “often entailing new and unexpected developments of technology, over the past four decades have given us the confidence to adopt this tone.”

The evidence is enough to back their confidence, fascinating and detailed. Central to their paper, and indeed their model of panspermia, is the action of viruses, retroviruses, in particular, and much of the evidence presented revolves around them.

Retroviruses are fiendishly clever. They are the foremost practitioners of horizontal gene transfer, integrating their own genetic material into the genome of the infected host to produce more viruses.

Intriguingly, if they infect germline cells, sperm or ova, for example, then the organism will transmit the integrated retrovirus, known as a provirus, to their descendants. In other words, the acquired genetic material becomes part of the offspring’s inheritance. It’s a solidly Lamarckian mechanism and Steele’s own somatic selection hypothesis is based on such viral capacities.

This ability to affect the genetic makeup of their hosts makes viruses a force to be reckoned with. As a group of researchers, led by microbiologist Matthew B Sullivan, wrote in 2016, “viruses modulate the function and evolution of all living things, but to what extent remains a mystery.”

And the truth is there are a lot of viruses around.

Virologist Curtis Suttle from the University of British Columbia in Canada and his colleagues last year published the first research into the number of viruses being deposited from the atmosphere. The amount is staggering, possibly billions a day for every square metre of the earth. Viruses are puissant and ubiquitous.

Steele and colleagues seem to have been finally spurred to action by new virological data connecting viruses and evolution.

In 2017 Pakorn Aiewsakun and Aris Katzourakis from the University of Oxford in the UK published a paper in Nature Communications that concluded that “retroviruses emerged together with their vertebrate hosts in the ocean” at least 460 million years ago. They also established that the two entities demonstrate patterns of co-speciation: as the host organisms transform into new species, their viral counterparts similarly transform. This, claim Steele and colleagues, is a key prediction of the H-W panspermia hypothesis.

Steele and colleagues derive two points from Aiewsakun and Katzourakis’ findings.

The first is that viruses are successful only because they have evolved to make use of the host’s cellular machinery and genetic regulatory make-up – that is, they are “in touch with the whole of the cell’s very ability to grow and divide to produce progeny cells and to evolve”. Given this, evidence that retroviruses emerged at the same time as, and co-speciated with, their hosts, simply doesn’t add up. Retroviruses are carefully adapted to the stable make-up of their target hosts and such co-variance just shouldn’t happen.

The second point is that the emergence of these retroviruses barely predates the Cambrian Explosion, a period in which sudden and unparalleled biological diversity and complexity appeared on Earth. They also emerge not long after a mass extinction event at the end of the Ediacaran period, 542 million years ago.

Panspermia accounts for all this, the authors explain, thus: the Ediacaran extinction was most likely brought about by comets that brought with them complex retroviruses. The retroviruses were the main driver of the Cambrian explosion. They integrated themselves into the genomes of countless terrestrial species, introducing novel genetic material which resulted in an explosion of diversification of living forms.

They integrated so quickly and easily, without the need or time to evolve to the target host’s genetic make-up, because they arrived already primed to do so. This is because the H-W panspermia hypothesis posits a cosmic biology, in which, write the researchers, “the entire galaxy (and perhaps a local group of galaxies) constitutes a single connected biosphere”. All life, both terrestrial and extra-terrestrial, is related, according to this view, as all life comes from the greater biosphere in which genetic material in the “cosmic gene pool” is readily shared. There is an underlying biochemical unity of all life, differing only in which isotopes of essential elements life from different parts of the universe might use.

One of the loudest champions of panspermia theory, the late astronomer, Fred Hoyle.
One of the loudest champions of panspermia theory, the late astronomer, Fred Hoyle.
David Levenson/Getty Images

As Wickramasinghe puts it, “Our point of view is that in the context of an interconnected cosmic biosphere involving at least 100 billion habitable exoplanets in our galaxy alone, and with continuing exchanges of biomaterial, large scale HGT including exchanges of complex genetic packages in the form of viruses, seeds, bacteria is unavoidable.”

One of the reasons for adopting panspermia, he explains, is the “superastronomically improbable transition from non-life to life”.

The idea that abiogenesis occurred on the cosmically insignificant earth in an awkwardly short amount of time strikes him as improbable, at best.

“The choice between life originating on Earth against manifestly insuperable odds,” he says, “and an origin in the connected volume of a large part of the almost infinite universe is a simple binary choice. We chose the most probable.”

Steele and colleagues argue that abiogenesis is deeply unlikely here on earth and that “it is many orders of magnitude more likely that it emerged in one of the trillions of comet-like incubators or water-bearing planets (cosmic-wide versions of Darwin's 'warm little ponds') at a very early time in the growth of this universe”.

Despite this, Wickramasinghe, Hoyle and Steele have all entertained the notion that there is no need for such a creation story. When asked if there must be abiogenesis at some point, somewhere in the universe, Steele replies, “Actually no. If the universe is steady state infinite there is no formal abiogenesis! I am not saying I agree with that. But Big Bang or steady state are so mind-boggling I find both incredible!”

The reason for this, and a common factor amongst the three scientists, is a commitment to, or interest in, the steady state theory of cosmology.

The idea, first put forward by Hoyle and two colleagues in 1948, holds that the universe has no beginning or end and remains the same size. As matter at the outer reaches of the universe loses energy and goes dark, new matter is created.

In this view, biology is as timeless and without origin as the universe itself. Hoyle famously lost the fight over cosmological models to George Gamow and the advocates for the Big Bang. Despite the discovery of cosmic microwave background radiation in 1964, something predicted by Big Bang theory, Hoyle never recanted his beliefs, and the steady state universe seems an underlying presence in the H-W model of panspermia.

The background theories and characters may be unsettling, but they don’t detract from the evidence upon which the paper rests, which must be taken on its own terms. Much of it is peer reviewed, but it is not always as persuasive as billed. Nonetheless, there is a good deal that gives one pause for thought.

For example, when asked why we haven’t found obvious signs of microbial life elsewhere in the solar system, both Steele and Wickramasinghe seem adamant that such evidence has, in fact, been found. Both point to the work of Gilbert Levin, the principal investigator of the 1976 Viking mission to Mars and his colleague Patricia Straat. Viking’s results pointed to something with a metabolism in the Martian soils, but then couldn’t detect any organic material. The result is interesting, but inconclusive.

The authors also insist fossil microbes have already been found in various meteorites, including the famous Murchison meteorite that fell in Victoria, Australia, in 1969. While they point to refereed journal articles for support, it seems the jury is still out. Once again, the evidence is tantalising but not conclusive.

More recently, traces of seemingly biological carbon deposits have been found in rocks predating the emergence of life, during a period of heavy comet and asteroid bombardment. The authors see this as evidence of life carried to earth, but, as Baverstock suggests, there are other reasons such carbon might be there.

More intriguing is the discovery of bacteria and microbes in unlikely places, such as the stratosphere, 30 to 40 kilometres above the surface of the planet, and more excitingly on the outside of the International Space Station. In the case of the ISS, contamination has been ruled out and the physics suggests that it is not possible for the microbes to have been lofted up from the earth’s surface.

Just as fascinating are suggestive astronomical findings, such as the Rosetta mission’s discovery of organic compounds on and around the comet 67P/Churyumov-Gerasimenko. This finding coincides nicely with Hoyle and Wickramasinghe’s demonstration that interstellar dust is partly made of organic molecules.

Perhaps the most intriguing astronomical evidence of all is that which converted Steele to the panspermia hypothesis.

A development from the research into organic interstellar dust, the spectrum of light produced as infra-red radiation passes through cosmic dust turns out to have the exact same spectral signature as freeze-dried E. coli bacteria. Steele’s frustration with the scientific community’s indifference to this staggering result is palpable.

“All our knowledge of the universe,” he says, “has been built this way – get the spectrum (emission, absorption) in the laboratory on Earth, then focus the telescope on a cosmic source/object and ask, What is the spectrum or signature? Does it match that found in the Earth-based laboratory?”

The answer? “It is an exact match – you cannot get better than that in science.”

So why has the result largely been passed over as a curiosity? Steele muses, “The situation is reminiscent to the problem Galileo had with the Catholic priests of his time – most refused to look through his telescope to observe the moons of Jupiter.”

Perhaps the most controversial aspect of the new paper concerns the origins of the octopus. The discussion begins, as it so often does in the paper, with some intriguing evidence.

Cephalopods (the group comprising squid, cuttlefish, nautilus and octopus) have a somewhat confusing evolutionary tree, first appearing in the late Cambrian period and seemingly descending from an ancestral primitive nautiloid.

Of these, the octopus is the most striking, with features, such as a complex nervous system, sophisticated eyes and a capacity for camouflage, that appear quite suddenly in its evolution. The genes necessary for this transformation, the authors suggest, are not present in its ancestry. Thus, they hold that “it is plausible then to suggest they seem to be borrowed from a far distant ‘future’ in terms of terrestrial evolution, or more realistically from the cosmos at large.”

Interestingly, the octopus has some real and pervasive biochemical differences from the nautilus, presumably the closest living relative of the former’s ancestor. In particular, there is evidence of extensive changes in the RNA, and thus proteins, found in the neural structures of cephalopods.

These changes have been evolutionarily preserved and are not found to this extent elsewhere in nature, not even in the nautilus. This indicates that a qualitative evolutionary transformation occurred relatively recently and abruptly in behaviourally complex cephalopods. The sheer scale of these changes leads the authors to conclude that it cannot be explained by normal neo-Darwinian processes. Or even Lamarckian processes. And they may have a point.

But here things get weird. “One plausible explanation, in our view, is that the new genes are likely new extraterrestrial imports to Earth – most plausibly as an already coherent group of functioning genes within (say) cryopreserved and matrix protected fertilised octopus eggs,” write the authors. This would “be a parsimonious cosmic explanation for the octopus' sudden emergence on Earth [about] 270 million years ago.”

It’s moments like this that point to the source of the paper’s unease. It lies not with the evidence it presents, but rather the larger conclusions drawn.

The evidence is nonetheless provocative. Taken together it indicates, if nothing else, that there is much we don’t know and that our prevailing scientific orthodoxies will undergo transformations, as all scientific theories do.

The orthodox scientific response is encapsulated in the commentary from the decorated virologist Karin Moelling of the Max Planck Institute Molecular Genetics, in Berlin, and Institute of Medical Microbiology, Zürich, published in the same journal issue.

“So this article is useful, calling for attention, and it is worth thinking about,” she says, “yet the main statement about viruses, microbes and even animals coming to us from space, cannot be taken seriously.”

These kinds of pronouncements have led to the near-radio silence from the media, except for the occasional piece riffing on the theme of space octopuses. Scientific commentary is muted, confused by the tension between the outlandish claims and the peer-reviewed status of the paper.

Maybe we should side with sage advice of the journal’s editor, the renowned British biologist Denis Noble. “The usual mantra ‘further research is needed’ applies even more than usual,” he writes. “In the future, the ideas will surely become testable.”

The authors, too, think this the best course of action. “The whole issue is on the verge of being decided by decisive evidence of extra-terrestrial life being found elsewhere in our solar system,” they conclude.

Instead of dismissing panspermia out of hand, perhaps then, we should just wait for the discoveries that future space probes might bring. Evidence, as always, will be the ultimate decider.

21st of March 2018


The first proposal of life being a cosmic phenomenon was made nearly 4 decades ago by Chandra Wickramasinghe and the late Sir Fred Hoyle. As might have been expected the idea was controversial and bitterly contested at the time. However, in the intervening years, a raft of evidence from astronomy, biology, and geology have all converged to support the Hoyle-Wickramasinghe (H-W) thesis of Cometary (Cosmic) Biology and cometary panspermia. Comets are the carriers and distributors of life in the cosmos and life on Earth arose and developed as a result of cometary inputs.

Much of the physical and biological evidence for this point of view is multifactorial, and despite a continuing controversy, the trend of the data has been to consistently support the H-W thesis. In contrast, despite much effort and expense, little or no evidence has been discovered to support the standard theory that life originated in a purely Earth-based primordial soup.

A comprehensive review paper by over 30 international scientists, including Chandra Wickramasinghe and Edward Steele, now published in Progress in Biophysics and Molecular Biology, presents the strongest evidence to date to support the case that life on Earth has cosmic origins. One particular focus of the new paper is on the recent studies which date the emergence of the complex "retroviruses of vertebrate lines" at or just before the Cambrian Explosion of ~ 500 Ma. Such viruses are known to be plausibly associated with major evolutionary genomic processes. The many scientists authoring the paper believe this coincidence is not fortuitous but is consistent with a key prediction of H-W theory whereby major extinction-diversification evolutionary boundaries coincide with virus-bearing cometary-bolide bombardment events. A second focus is a remarkable evolution of intelligent complexity (Cephalopods) culminating in the emergence of the Octopus. A third focus concerns the microorganism fossil evidence contained within meteorites as well as the detection in the upper atmosphere of apparent incoming life-bearing particles from space, most recently from a height of 400km.

The conclusion is that the totality of available data, combined with critical analyses assembled by Fred Hoyle, Chandra Wickramasinghe and their many colleagues since the 1960s, leads to a very plausible and unique conclusion - life was seeded on Earth by life-bearing comets as soon as conditions on Earth allowed it to flourish (about or just before 4.1 Billion years ago); and living organisms such as space-resistant and space-hardy bacteria, viruses, more complex eukaryotic cells, fertilised ova and seeds have been continuously delivered ever since to Earth so being one important driver of further terrestrial evolution which has resulted in considerable genetic diversity and which has led to the emergence of mankind.

Some biologists, who do not like this trend, have argued that the case for cosmic life in their view is still not compelling enough to abandon the standard Earth-centred theories. The authors of the new review paper reply with the following statement:

"Within an individual scientist a paradigm shift occurs in two stages:

(1). An instant personal decision to embrace the new global way of understanding reality. This happens within a blink of an eye, as in a Gestalt shift made famous by Thomas Kuhn. The individual confronting the data compares the available evidence for and against - a piece of evidence clicks into place which only makes sense under the new alternative paradigm, and is quite nonsensical under the old way of understanding the world. (2). This personal decision can then move into the public domain but there are many inhibitory processes as the scholar and scientist have to weigh up the socio-political costs, such as: How will this affect my relationships with colleagues? How will this affect my prospects for promotion? How will this affect my prospects for research funding? etc. The more fundamental the shift the deeper is the problem for successfully moving to stage (2). However, these shifts do happen regularly in Science and are largely accrued community decisions over time.
 The authors conclude with the assertion that the battle between rival paradigms on the origin and further evolution of life on Earth is underway and they look forward to more scientists engaging in it. The intellectual shift in the population of scientists to the cosmic perspective will, of course, be protracted particularly in the messy final stages - for example as occurred in the first Copernican revolution - which is likely to continue for some time. Thus to directly quote Kuhn:

......The state of Ptolemaic (Earth-centred) astronomy was a scandal before Copernicus' announcement. Given a particular discrepancy, astronomers were invariably able to eliminate it by making some particular adjustment in Ptolemy's system of compounded circles. But as time went on, a man looking at the net result of the normal research effort of many astronomers could observe that astronomy's complexity was increasing far more rapidly than its accuracy and that a discrepancy corrected in one place was likely to show up in another (Kuhn 1969)."

The paper by Steele et al is attached.

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2nd of March 2018


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28th of February 2018

"Microbes found in one of Earth's most hostile places, giving hope for life on Mars"

A hardy community of bacteria lives in Chile's Atacama Desert-one of the driest and most inhospitable places on Earth-where it can survive a decade without water, new research confirms. The work should put to rest the doubts of many scientists, who had suggested that previous evidence of microscopic life in this remote region came from transient microbes. And because the soils in this location closely resemble those on Mars, these desert dwellers may give hope to those seeking life on the Red Planet's similarly hostile surface....Read More

19th of February 2018

"The cosmic origins of life"

This extract is part of a lecture series on the cosmic origins of life delivered by Chandra Wickramasinghe. The place of humans in the evolution of life appears to be utterly trivial in relation to the time during which we have existed on this planet. The overwhelming dominance is of far humbler lifeforms is most striking and our emergence seems like an afterthought that occupied scarcely the twinkling of the eye!.

Pro.Chandar Wickramasinghe with BBC radio

31st of January 2018

"Inauguration lecture of Astrobiology Research Center was held in 30th of January 2018,at Department of Physics University of Ruhuna. ".

20th of December 2017

"The most important technological development since 1800".

This is a radio program Prof. Chandra Wickramasinghe did with BBC, six years ago.

Pro.Chandar Wickramasinghe with BBC radio

Inauguration lectures of Centre for Astrobiology in Sri Lanka,Ruhuna University.

"Life in the Universe A new cosmic worldview unravelled"-by Prof.Chandra Wickramasinghe


"Astroeconomics"-by Prof. Gensuke Tokoro