How has our biology shaped world history? - Highlights - LEWIS DARTNELL

How has our biology shaped world history? - Highlights - LEWIS DARTNELL

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Astrobiologist · Science Communicator
Author of Origins: How the Earth Made Us · Being Human: How Our Biology Shaped World History

The challenges facing our society at the moment effectively are the unintended consequence of a solution we found in the late 1700s when society was running out of energy, we had no more timber, and we realized we could dig underground for ancient fossilized woodland, which is basically what coal is from about 300 million years ago. The consequence of burning all that coal and then oil was a release of carbon dioxide, changing our atmosphere and warming the planet. So, it's a problem born out of our ingenuity and resourcefulness, but I'm confident that we will find the solution out of our ingenuity and resourcefulness.

LEWIS DARTNELL - Author of Origins: How the Earth Made Us & Being Human: How Our Biology Shaped World History

LEWIS DARTNELL - Author of Origins: How the Earth Made Us & Being Human: How Our Biology Shaped World History

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Astrobiologist · Science Communicator
Author of Origins: How the Earth Made Us · Being Human: How Our Biology Shaped World History

The challenges facing our society at the moment effectively are the unintended consequence of a solution we found in the late 1700s when society was running out of energy, we had no more timber, and we realized we could dig underground for ancient fossilized woodland, which is basically what coal is from about 300 million years ago. The consequence of burning all that coal and then oil was a release of carbon dioxide, changing our atmosphere and warming the planet. So, it's a problem born out of our ingenuity and resourcefulness, but I'm confident that we will find the solution out of our ingenuity and resourcefulness.

Highlights - How do we navigate ambiguity, uncertainty & move beyond linear thinking? - RUPERT SHELDRAKE

Highlights - How do we navigate ambiguity, uncertainty & move beyond linear thinking? - RUPERT SHELDRAKE

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Biologist · Author
The Science Delusion · The Presence of the Past · Ways to Go Beyond and Why They Work.

The idea that the laws of nature are fixed is taken for granted by almost all scientists and within physics, within cosmology, it leads to an enormous realm of speculation, which I think is totally unnecessary. We're assuming the laws of nature are fixed. Most of science assumes this, but is it really so in an evolving universe? Why shouldn't the laws evolve? And if we think about that, then we realize that actually, the whole idea of a law of nature is a metaphor. It's based on human laws. I mean, after all, dogs and cats don't obey laws. And in tribes, they don't even have laws. They have customs. So it's only in civilized societies that you have laws.

And then if we think through that metaphor, then actually the laws do change.

All artists are influenced by other artists and by things in the collective culture, and I think that morphic resonance as collective memory would say that all of us draw unconsciously as well as consciously on a collective memory and all animals draw on a collective memory of their kind as well. We don't know where it comes from, but there's true creativity involved in evolution, both human and natural.

RUPERT SHELDRAKE - Biologist & Author of The Science Delusion, The Presence of the Past

RUPERT SHELDRAKE - Biologist & Author of The Science Delusion, The Presence of the Past

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Biologist · Author
The Science Delusion · The Presence of the Past · Ways to Go Beyond and Why They Work.

The idea that the laws of nature are fixed is taken for granted by almost all scientists and within physics, within cosmology, it leads to an enormous realm of speculation, which I think is totally unnecessary. We're assuming the laws of nature are fixed. Most of science assumes this, but is it really so in an evolving universe? Why shouldn't the laws evolve? And if we think about that, then we realize that actually, the whole idea of a law of nature is a metaphor. It's based on human laws. I mean, after all, dogs and cats don't obey laws. And in tribes, they don't even have laws. They have customs. So it's only in civilized societies that you have laws.

And then if we think through that metaphor, then actually the laws do change.

All artists are influenced by other artists and by things in the collective culture, and I think that morphic resonance as collective memory would say that all of us draw unconsciously as well as consciously on a collective memory and all animals draw on a collective memory of their kind as well. We don't know where it comes from, but there's true creativity involved in evolution, both human and natural.

Highlights - Kent Redford - Co-author, ”Strange Natures: Conservation in the Era of Synthetic Biology”

Highlights - Kent Redford - Co-author, ”Strange Natures: Conservation in the Era of Synthetic Biology”

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Co-author of Strange Natures: Conservation in the Era of Synthetic Biology
Principal at Archipelago Consulting · Former VP for Conservation Science & Strategy, Wildlife Conservation Society

The field of synthetic biology, which is known by some as extreme genetic engineering – that's a name mostly used by people who don't like it. It amounts to a set of tools that humans have developed to be able to very precisely and accurately change the genetic code, the DNA of living organisms in order to get those organisms to do things that humans want. So the applications in medicine are predominantly devoted to trying to make us healthier people, and they range from some really exciting work on tumor biology to work on the microbiome, which is all of the thousands and tens of thousands of species that live on our lips, our mouths, our guts, our skin. And in agriculture, it's primarily directed at crop genetics, trying to improve the productivity of crops, the nutritional value of crops, the ability of crops to respond to climate change, and a whole variety of other things. Some people may have heard of one of these tools called CRISPR used to very precisely alter the sequences of DNA.

Kent Redford - Co-author of "Strange Natures: Conservation in the Era of Synthetic Biology”

Kent Redford - Co-author of "Strange Natures: Conservation in the Era of Synthetic Biology”

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Co-author of Strange Natures: Conservation in the Era of Synthetic Biology
Principal at Archipelago Consulting · Former VP for Conservation Science & Strategy, Wildlife Conservation Society

The field of synthetic biology, which is known by some as extreme genetic engineering – that's a name mostly used by people who don't like it. It amounts to a set of tools that humans have developed to be able to very precisely and accurately change the genetic code, the DNA of living organisms in order to get those organisms to do things that humans want. So the applications in medicine are predominantly devoted to trying to make us healthier people, and they range from some really exciting work on tumor biology to work on the microbiome, which is all of the thousands and tens of thousands of species that live on our lips, our mouths, our guts, our skin. And in agriculture, it's primarily directed at crop genetics, trying to improve the productivity of crops, the nutritional value of crops, the ability of crops to respond to climate change, and a whole variety of other things. Some people may have heard of one of these tools called CRISPR used to very precisely alter the sequences of DNA.