Questõesde CESMAC 2018 sobre Inglês

Read the text below and answer the following question.

Can Cellular Agriculture Feed the World?

    Within 20 years, there will be 2 billion more people than today — over 9 billion people in total. The impact to the environment could be severe. Just feeding that population using current methods is problematic.

    On average, cattle ranchers need 100 times more land than corn growers to produce a gram of food. So, if that hungry world continues to eat meat like we do, the demand for land — and fresh water — will be alarming, not to mention the environmental impact of raising so many animals. Meat production aside, the large-scale monoculture of crops like corn usually results in damaging terrestrial pollution from pesticides and soil depletion. The impact to the oceans is equally perilous.

   Instead of farming animals, fish and plants, cellular agriculture grows the proteins and nutrients we consume from a culture, cell by cell. With this alternative approach, the consumable meat and plant tissues produced don’t need to be harvested from animals or plants. It’s food production on an industrial scale.

  The technology to do this is not new. Growing meat from a scaffold embedded in growth culture is no different in theory than making bread from yeast. The vast majority of insulin for diabetics is already manufactured by genetically engineered bacteria, as is the rennet used to culture cheese. In the past 10 years, this approach has been pioneered with a variety of foodstuffs: milk, eggs, beef, chicken, fish — even coffee.

    To succeed, cellular agriculture must overcome 6,000 years of established dependence on traditional agriculture, and it has to do so via one of the most finicky human senses: taste. No one will eat manufactured meat or fish if it doesn’t have the same sensual satisfaction generated by the grown version. So, in addition to all the technical challenges in creating edible tissues from cultures, the startups pioneering this approach are working diligently to make their products tasty.

   The possibilities for cellular agriculture are seemingly limitless; it may be possible to grow human organs for transplant using the method. But it is still early days.

Adaptado de: <https://earth911.com/business-policy/cellular-agriculture/> Acessado em 19 de outubro de 2018.

Read the text below and answer the following question.

Can Cellular Agriculture Feed the World?

    Within 20 years, there will be 2 billion more people than today — over 9 billion people in total. The impact to the environment could be severe. Just feeding that population using current methods is problematic.

    On average, cattle ranchers need 100 times more land than corn growers to produce a gram of food. So, if that hungry world continues to eat meat like we do, the demand for land — and fresh water — will be alarming, not to mention the environmental impact of raising so many animals. Meat production aside, the large-scale monoculture of crops like corn usually results in damaging terrestrial pollution from pesticides and soil depletion. The impact to the oceans is equally perilous.

   Instead of farming animals, fish and plants, cellular agriculture grows the proteins and nutrients we consume from a culture, cell by cell. With this alternative approach, the consumable meat and plant tissues produced don’t need to be harvested from animals or plants. It’s food production on an industrial scale.

  The technology to do this is not new. Growing meat from a scaffold embedded in growth culture is no different in theory than making bread from yeast. The vast majority of insulin for diabetics is already manufactured by genetically engineered bacteria, as is the rennet used to culture cheese. In the past 10 years, this approach has been pioneered with a variety of foodstuffs: milk, eggs, beef, chicken, fish — even coffee.

    To succeed, cellular agriculture must overcome 6,000 years of established dependence on traditional agriculture, and it has to do so via one of the most finicky human senses: taste. No one will eat manufactured meat or fish if it doesn’t have the same sensual satisfaction generated by the grown version. So, in addition to all the technical challenges in creating edible tissues from cultures, the startups pioneering this approach are working diligently to make their products tasty.

   The possibilities for cellular agriculture are seemingly limitless; it may be possible to grow human organs for transplant using the method. But it is still early days.

Adaptado de: <https://earth911.com/business-policy/cellular-agriculture/> Acessado em 19 de outubro de 2018.

Read the text below and answer the following question.

Can Cellular Agriculture Feed the World?

    Within 20 years, there will be 2 billion more people than today — over 9 billion people in total. The impact to the environment could be severe. Just feeding that population using current methods is problematic.

    On average, cattle ranchers need 100 times more land than corn growers to produce a gram of food. So, if that hungry world continues to eat meat like we do, the demand for land — and fresh water — will be alarming, not to mention the environmental impact of raising so many animals. Meat production aside, the large-scale monoculture of crops like corn usually results in damaging terrestrial pollution from pesticides and soil depletion. The impact to the oceans is equally perilous.

   Instead of farming animals, fish and plants, cellular agriculture grows the proteins and nutrients we consume from a culture, cell by cell. With this alternative approach, the consumable meat and plant tissues produced don’t need to be harvested from animals or plants. It’s food production on an industrial scale.

  The technology to do this is not new. Growing meat from a scaffold embedded in growth culture is no different in theory than making bread from yeast. The vast majority of insulin for diabetics is already manufactured by genetically engineered bacteria, as is the rennet used to culture cheese. In the past 10 years, this approach has been pioneered with a variety of foodstuffs: milk, eggs, beef, chicken, fish — even coffee.

    To succeed, cellular agriculture must overcome 6,000 years of established dependence on traditional agriculture, and it has to do so via one of the most finicky human senses: taste. No one will eat manufactured meat or fish if it doesn’t have the same sensual satisfaction generated by the grown version. So, in addition to all the technical challenges in creating edible tissues from cultures, the startups pioneering this approach are working diligently to make their products tasty.

   The possibilities for cellular agriculture are seemingly limitless; it may be possible to grow human organs for transplant using the method. But it is still early days.

Adaptado de: <https://earth911.com/business-policy/cellular-agriculture/> Acessado em 19 de outubro de 2018.

Read the graph below and answer the following question.

Adaptado de: <https://brainly.com/question/2608462> Acessado em 18 de outubro de 2018.

Read the comic strip below and answer the following question based on it.

Disponível em:< http://www.guysports.com/funny/doctor_cartoon.htm>. Acessado em 5 de abril de 2018.

Read the illustration below and answer the following question based on it.

Disponível em:< https://i.pinimg.com/originals/33/82/af/3382af7d4f90bbed0e333770 abbc317e.jpg>. Acessado em 2 de abril de 2018

Read the text below and answer the following question based on it.

More than half your body is not human

Human cells make up only 43% of the body's total cell count. The rest are microscopic colonists.

Understanding this hidden half of ourselves - our microbiome - is rapidly transforming understanding of diseases from allergy to Parkinson's.

No matter how well you wash, nearly every nook and cranny of your body is covered in microscopic creatures.

This includes bacteria, viruses, fungi and archaea (organisms originally misclassified as bacteria). The greatest concentration of this microscopic life is in the dark murky depths of our oxygen-deprived bowels.

The human genome - the full set of genetic instructions for a human being - is made up of 20,000 instructions called genes.

But add all the genes in our microbiome together and the figure comes out between two and 20 million microbial genes.

Prof Sarkis Mazmanian, a microbiologist from Caltech, argues: "We don't have just one genome, the genes of our microbiome present essentially a second genome which augment the activity of our own.

Science is rapidly uncovering the role the microbiome plays in digestion, regulating the immune system, protecting against disease and manufacturing vital vitamins.

It is a new way of thinking about the microbial world. To date, our relationship with microbes has largely been one of warfare.

Antibiotics and vaccines have been the weapons unleashed against the likes of smallpox, Mycobacterium tuberculosis or MRSA.

That's been a good thing and has saved large numbers of lives.

But some researchers are concerned that our assault on the bad guys has done untold damage to our "good bacteria".

Prof Knight has performed experiments on mice that were born in the most sanitised world imaginable.

He says: "We were able to show that if you take lean and obese humans and take their faeces and transplant the bacteria into mice you can make the mouse thinner or fatter depending on whose microbiome it got."

"This is pretty amazing right, but the question now is will this be translatable to humans"

This is the big hope for the field, that microbes could be a new form of medicine. It is known as using "bugs as drugs".

Adaptado de: < http://www.bbc.com/news/health-43674270> Acessado em 13 de abril de 2018.

Read the text below and answer the following question based on it.

More than half your body is not human

Human cells make up only 43% of the body's total cell count. The rest are microscopic colonists.

Understanding this hidden half of ourselves - our microbiome - is rapidly transforming understanding of diseases from allergy to Parkinson's.

No matter how well you wash, nearly every nook and cranny of your body is covered in microscopic creatures.

This includes bacteria, viruses, fungi and archaea (organisms originally misclassified as bacteria). The greatest concentration of this microscopic life is in the dark murky depths of our oxygen-deprived bowels.

The human genome - the full set of genetic instructions for a human being - is made up of 20,000 instructions called genes.

But add all the genes in our microbiome together and the figure comes out between two and 20 million microbial genes.

Prof Sarkis Mazmanian, a microbiologist from Caltech, argues: "We don't have just one genome, the genes of our microbiome present essentially a second genome which augment the activity of our own.

Science is rapidly uncovering the role the microbiome plays in digestion, regulating the immune system, protecting against disease and manufacturing vital vitamins.

It is a new way of thinking about the microbial world. To date, our relationship with microbes has largely been one of warfare.

Antibiotics and vaccines have been the weapons unleashed against the likes of smallpox, Mycobacterium tuberculosis or MRSA.

That's been a good thing and has saved large numbers of lives.

But some researchers are concerned that our assault on the bad guys has done untold damage to our "good bacteria".

Prof Knight has performed experiments on mice that were born in the most sanitised world imaginable.

He says: "We were able to show that if you take lean and obese humans and take their faeces and transplant the bacteria into mice you can make the mouse thinner or fatter depending on whose microbiome it got."

"This is pretty amazing right, but the question now is will this be translatable to humans"

This is the big hope for the field, that microbes could be a new form of medicine. It is known as using "bugs as drugs".

Adaptado de: < http://www.bbc.com/news/health-43674270> Acessado em 13 de abril de 2018.

Read the text below and answer the following question based on it.

More than half your body is not human

Human cells make up only 43% of the body's total cell count. The rest are microscopic colonists.

Understanding this hidden half of ourselves - our microbiome - is rapidly transforming understanding of diseases from allergy to Parkinson's.

No matter how well you wash, nearly every nook and cranny of your body is covered in microscopic creatures.

This includes bacteria, viruses, fungi and archaea (organisms originally misclassified as bacteria). The greatest concentration of this microscopic life is in the dark murky depths of our oxygen-deprived bowels.

The human genome - the full set of genetic instructions for a human being - is made up of 20,000 instructions called genes.

But add all the genes in our microbiome together and the figure comes out between two and 20 million microbial genes.

Prof Sarkis Mazmanian, a microbiologist from Caltech, argues: "We don't have just one genome, the genes of our microbiome present essentially a second genome which augment the activity of our own.

Science is rapidly uncovering the role the microbiome plays in digestion, regulating the immune system, protecting against disease and manufacturing vital vitamins.

It is a new way of thinking about the microbial world. To date, our relationship with microbes has largely been one of warfare.

Antibiotics and vaccines have been the weapons unleashed against the likes of smallpox, Mycobacterium tuberculosis or MRSA.

That's been a good thing and has saved large numbers of lives.

But some researchers are concerned that our assault on the bad guys has done untold damage to our "good bacteria".

Prof Knight has performed experiments on mice that were born in the most sanitised world imaginable.

He says: "We were able to show that if you take lean and obese humans and take their faeces and transplant the bacteria into mice you can make the mouse thinner or fatter depending on whose microbiome it got."

"This is pretty amazing right, but the question now is will this be translatable to humans"

This is the big hope for the field, that microbes could be a new form of medicine. It is known as using "bugs as drugs".

Adaptado de: < http://www.bbc.com/news/health-43674270> Acessado em 13 de abril de 2018.