K
Khách

Hãy nhập câu hỏi của bạn vào đây, nếu là tài khoản VIP, bạn sẽ được ưu tiên trả lời.

Read the following passage and mark the letter A, B, C, or D on your answer sheet to indicate the correct answer to each of the questions from 30 to 34.

Genetic modification of foods is not a new practice. It has been practiced for thousands of years under the name of "selective breeding". Animals and plants were chosen because they had traits that humans found useful. Some animals were larger and stronger than others, or they yielded more food, or they had some other trait that humans valued. Therefore, they were bred because of those traits. Individuals with those traits were brought together and allowed to breed in the hope that their offspring would have the same traits in greater measure.

Much the same thing was done with plants. To produce bigger or sweeter fruit, or grow more grain per unit of land, strains of plants were combined and recombined to produce hybrids, or crossbreeds that had the desired traits in the right combinations. All the while, however, biologists wondered: is there a more direct and versatile way to change the traits of plants and animals? Could we rewrite, so to speak, the heredity of organisms to make them serve our needs better?

In the 20th century, genetic modification made such changes possible at last. Now, it was possible to alter the genetic code without using the slow and uncertain process of selective breeding. It even became possible to blend plants and animals genetically: to insert animal genes into plants, for example, in order to give the plants a certain trait they ordinarily would lack, such as resistance to freezing. The result was a tremendous potential to change the very nature of biology.

The word "them" in paragraph 2 refers to ______.

A. organisms 

B. traits 

C. animals 

D. plants 

1
7 tháng 8 2018

Từ “them” trong đoạn 2 liên hệ với ______.

A. organisms (n): các sinh vật

B. traits (n): đặc điểm (=features, characteristics)

C. animals (n): động vật

D. plants (n): thực vật

Thông tin: Could we rewrite, so to speak, the heredity of organisms to make them serve our needs better?

Tạm dịch: Chúng ta có thể viết lại, theo một cách nào đó, tính di truyền của các sinh vật để làm cho chúng phục vụ nhu cầu của chúng ta tốt hơn?

Chọn A

Read the following passage and mark the letter A, B, C, or D on your answer sheet to indicate the correct answer to each of the questions from 30 to 34.Genetic modification of foods is not a new practice. It has been practiced for thousands of years under the name of "selective breeding". Animals and plants were chosen because they had traits that humans found useful. Some animals were larger and stronger than others, or they yielded more food, or they had some other trait that humans valued....
Đọc tiếp

Read the following passage and mark the letter A, B, C, or D on your answer sheet to indicate the correct answer to each of the questions from 30 to 34.

Genetic modification of foods is not a new practice. It has been practiced for thousands of years under the name of "selective breeding". Animals and plants were chosen because they had traits that humans found useful. Some animals were larger and stronger than others, or they yielded more food, or they had some other trait that humans valued. Therefore, they were bred because of those traits. Individuals with those traits were brought together and allowed to breed in the hope that their offspring would have the same traits in greater measure.

Much the same thing was done with plants. To produce bigger or sweeter fruit, or grow more grain per unit of land, strains of plants were combined and recombined to produce hybrids, or crossbreeds that had the desired traits in the right combinations. All the while, however, biologists wondered: is there a more direct and versatile way to change the traits of plants and animals? Could we rewrite, so to speak, the heredity of organisms to make them serve our needs better?

In the 20th century, genetic modification made such changes possible at last. Now, it was possible to alter the genetic code without using the slow and uncertain process of selective breeding. It even became possible to blend plants and animals genetically: to insert animal genes into plants, for example, in order to give the plants a certain trait they ordinarily would lack, such as resistance to freezing. The result was a tremendous potential to change the very nature of biology

Which of the following IS NOT achieved by genetic modification? 

A. Giving plants necessary traits taken from animals’ genes 

B. Producing hybrids or crossbreeds from many animals and plants 

C. Encouraging people to give up selective breeding completely 

D. Making big changes to the very nature of biology 

1
16 tháng 6 2019

Chọn C

Kiến thức: Đọc hiểu

Giải thích:

Cái nào sau đây không đạt được bởi biến đổi gen?

  A. Cung cấp cho thực vật những đặc tính cần thiết từ gen động vật

  B. Sản xuất giống lai khác loài hoặc lai khác giống từ nhiều động vật và thực vật

  C. Khuyến khích mọi người hoàn toàn bỏ gây giống có chọn lọc

  D. Tạo ra những thay đổi lớn với bản chất của sinh học

Dịch bài đọc:

Biến đổi gen của thực phẩm không phải là một thực hành mới mẻ. Nó đã được thực hiện hàng ngàn năm qua dưới cái tên “gây giống chọn lọc”. Động vật và thực vật được chọn lựa bởi vì chúng có những đặc tính mà con người thấy hữu dụng. Một vài con vật thì to hơn và khỏe hơn những con khác, hoặc chúng sản xuất ra nhiều thực phẩm, hoặc là chúng có đặc tính khác mà con người thấy giá trị. Do đó, chúng được nhân giống vì các đặc tính như vậy. Các cá thể với đặc tính đó được tập hợp lại và được cho phép sinh sản với hi vong rằng con cái của chúng sẽ có cùng đặc tính giống nhau trong số lượng lớn hơn.

Nhiều điều tương tự cũng đã thực hiện trên thực vật. Để tạo ra quả to hơn và ngọt hơn, hoặc trồng được nhiều ngũ cốc hơn trên một đơn vị đất đai, các chủng loại thực vật được kết hợp và tái kết hợp lại để tạo ra các giống lai khác loài hoặc giống lai khác giống, có những đặc tính mong muốn trong các kết hợp đúng. Suốt thời gian đó, tuy nhiên, các nhà khoa học đã tự hỏi: liệu có các nào trực tiếp và linh hoạt hơn để thay đổi các đặc tính của động vật và thực vật không? Chúng ta có thể viết lại, có thể nói như vậy, sự di truyền của các sinh vật để khiến chúng phục vụ nhu cầu của chúng ta tốt hơn?

Trong thế kỷ hai mươi, cuối cùng thì biến đổi gen cũng đã tạo ra được những thay đổi. Ngày nay, có khả năng để thay đổi mã di truyền mà không cần sử dụng quá trình gây giống có chọn lọc vừa chậm và không chắc chắn nữa. Thậm chí đã trở nên có khả năng pha trộn về gen của thực vật và động vật: để chèn các gen động vật vào thực vật, ví dụ, để cung cấp cho thực vật một đặc tính nhất định mà chúng nói chung đang thiếu, như là khả năng chống đóng băng. Kết quả này là một tiềm năng to lớn để thay đổi bản chất của sinh học

Read the following passage and mark the letter A, B, C, or D on your answer sheet to indicate the correct answer to each of the questions from 30 to 34. Genetic modification of foods is not a new practice. It has been practiced for thousands of years under the name of "selective breeding". Animals and plants were chosen because they had traits that humans found useful. Some animals were larger and stronger than others, or they yielded more food, or they had some other trait that humans valued....
Đọc tiếp

Read the following passage and mark the letter A, B, C, or D on your answer sheet to indicate the correct answer to each of the questions from 30 to 34.

Genetic modification of foods is not a new practice. It has been practiced for thousands of years under the name of "selective breeding". Animals and plants were chosen because they had traits that humans found useful. Some animals were larger and stronger than others, or they yielded more food, or they had some other trait that humans valued. Therefore, they were bred because of those traits. Individuals with those traits were brought together and allowed to breed in the hope that their offspring would have the same traits in greater measure.

Much the same thing was done with plants. To produce bigger or sweeter fruit, or grow more grain per unit of land, strains of plants were combined and recombined to produce hybrids, or crossbreeds that had the desired traits in the right combinations. All the while, however, biologists wondered: is there a more direct and versatile way to change the traits of plants and animals? Could we rewrite, so to speak, the heredity of organisms to make them serve our needs better?

In the 20th century, genetic modification made such changes possible at last. Now, it was possible to alter the genetic code without using the slow and uncertain process of selective breeding. It even became possible to blend plants and animals genetically: to insert animal genes into plants, for example, in order to give the plants a certain trait they ordinarily would lack, such as resistance to freezing. The result was a tremendous potential to change the very nature of biology.

Which of the following IS NOT achieved by genetic modification?

A. Giving plants necessary traits taken from animals’ genes

B. Producing hybrids or crossbreeds from many animals and plants

C. Encouraging people to give up selective breeding completely

D. Making big changes to the very nature of biology

1
26 tháng 7 2018

Điều nào dưới đây không đạt được bởi sự biến đổi gen?

A. cho thực vật những đặc tính cần thiết lấy từ gen của động vật

B. có thể sản sinh ra nhiều giống lai và kiểu lai chéo từ nhiều loài động vật và thực vật

C. khuyến khích mọi người từ bỏ hoàn toàn việc lai ghép chọn lọc

D. tạo ra sự thay đổi rất lớn với bản chất của sinh học

Thông tin:

- strains of plants were combined and recombined to produce hybrids, or crossbreeds that had the desired traits in the right combinations.

- It even became possible to blend plants and animals genetically: to insert animal genes into plants,

- The result was a tremendous potential to change the very nature of biology.

Tạm dịch:

- các chủng thực vật được kết hợp và tái kết hợp để tạo ra các giống lai, hoặc các giống lai có các tính trạng mong muốn theo đúng sự kết hợp của chúng ta.

- Chúng ta hoàn toàn có thể trộn lẫn gen của thực vật và động vật về mặt di truyền: chèn gen động vật vào thực vật,

- Kết quả là một tiềm năng rất lớn để thay đổi bản chất của sinh học.

Chọn C

Read the following passage and mark the letter A, B, C, or D on your answer sheet to indicate the correct answer to each of the questions from 30 to 34.Genetic modification of foods is not a new practice. It has been practiced for thousands of years under the name of "selective breeding". Animals and plants were chosen because they had traits that humans found useful. Some animals were larger and stronger than others, or they yielded more food, or they had some other trait that humans valued....
Đọc tiếp

Read the following passage and mark the letter A, B, C, or D on your answer sheet to indicate the correct answer to each of the questions from 30 to 34.

Genetic modification of foods is not a new practice. It has been practiced for thousands of years under the name of "selective breeding". Animals and plants were chosen because they had traits that humans found useful. Some animals were larger and stronger than others, or they yielded more food, or they had some other trait that humans valued. Therefore, they were bred because of those traits. Individuals with those traits were brought together and allowed to breed in the hope that their offspring would have the same traits in greater measure.

Much the same thing was done with plants. To produce bigger or sweeter fruit, or grow more grain per unit of land, strains of plants were combined and recombined to produce hybrids, or crossbreeds that had the desired traits in the right combinations. All the while, however, biologists wondered: is there a more direct and versatile way to change the traits of plants and animals? Could we rewrite, so to speak, the heredity of organisms to make them serve our needs better?

In the 20th century, genetic modification made such changes possible at last. Now, it was possible to alter the genetic code without using the slow and uncertain process of selective breeding. It even became possible to blend plants and animals genetically: to insert animal genes into plants, for example, in order to give the plants a certain trait they ordinarily would lack, such as resistance to freezing. The result was a tremendous potential to change the very nature of biology

According to the passage, selective breeding ______. 

A. is slower and uncertain than genetic modification 

B. works much better on plants than on animals 

C. helps change the traits of plants rather than animals 

D. has a huge potential to change the nature of biology 

1
16 tháng 6 2017

Chọn A

Kiến thức: Đọc hiểu

Giải thích:

Theo như đoạn văn, việc gây giống có chọn lọc

  A. thì chậm hơn và không chắc chắn hơn là biến đổi gen

  B. hiệu quả tốt trên thực vật hơn trên động vật

  C. giúp thay đổi các đặc tính của thực vật hơn là động vật

  D. có tiềm năng to lớn để thay đổi bản chất của sinh học

Thông tin: Now, it was possible to alter the genetic code without using the slow and uncertain process of selective breeding.

Tạm dịch: Ngày nay, có khả năng để thay đổi mã di truyền mà không cần sử dụng quá trình gây giống có chọn lọc vừa chậm và không chắc chắn nữa

Read the following passage and mark the letter A, B, C, or D on your answer sheet to indicate the correct answer to each of the questions from 30 to 34. Genetic modification of foods is not a new practice. It has been practiced for thousands of years under the name of "selective breeding". Animals and plants were chosen because they had traits that humans found useful. Some animals were larger and stronger than others, or they yielded more food, or they had some other trait that humans valued....
Đọc tiếp

Read the following passage and mark the letter A, B, C, or D on your answer sheet to indicate the correct answer to each of the questions from 30 to 34.

Genetic modification of foods is not a new practice. It has been practiced for thousands of years under the name of "selective breeding". Animals and plants were chosen because they had traits that humans found useful. Some animals were larger and stronger than others, or they yielded more food, or they had some other trait that humans valued. Therefore, they were bred because of those traits. Individuals with those traits were brought together and allowed to breed in the hope that their offspring would have the same traits in greater measure.

Much the same thing was done with plants. To produce bigger or sweeter fruit, or grow more grain per unit of land, strains of plants were combined and recombined to produce hybrids, or crossbreeds that had the desired traits in the right combinations. All the while, however, biologists wondered: is there a more direct and versatile way to change the traits of plants and animals? Could we rewrite, so to speak, the heredity of organisms to make them serve our needs better?

In the 20th century, genetic modification made such changes possible at last. Now, it was possible to alter the genetic code without using the slow and uncertain process of selective breeding. It even became possible to blend plants and animals genetically: to insert animal genes into plants, for example, in order to give the plants a certain trait they ordinarily would lack, such as resistance to freezing. The result was a tremendous potential to change the very nature of biology.

According to the passage, selective breeding ______.

A. is slower and uncertain than genetic modification

B. works much better on plants than on animals

C. helps change the traits of plants rather than animals

D. has a huge potential to change the nature of biology

1
30 tháng 9 2017

Theo như bài đọc, việc gây giống chọn lọc _____.

A. chậm hơn và không chắc chắn bằng việc biến đổi gen

B. hiệu quả hơn khi chúng ta lai giống trên thực vật hơn là trên động vật

C. giúp thay đổi đặc tính của thực vật hơn là động vật

D. có tiềm năng lớn để thay đổi bản chất của sinh học

Thông tin: Now, it was possible to alter the genetic code without using the slow and uncertain process of selective breeding.

Tạm dịch: Bây giờ chúng ta hoàn toàn có thể thay đổi mã gen thay vì sử dụng việc gây giống chọn lọc cái mà rất chậm và không chắc chắn.

Chọn A

Read the following passage and mark the letter A, B, C, or D on your answer sheet to indicate the correct answer to each of the questions from 30 to 34. Genetic modification of foods is not a new practice. It has been practiced for thousands of years under the name of "selective breeding". Animals and plants were chosen because they had traits that humans found useful. Some animals were larger and stronger than others, or they yielded more food, or they had some other trait that humans valued....
Đọc tiếp

Read the following passage and mark the letter A, B, C, or D on your answer sheet to indicate the correct answer to each of the questions from 30 to 34.

Genetic modification of foods is not a new practice. It has been practiced for thousands of years under the name of "selective breeding". Animals and plants were chosen because they had traits that humans found useful. Some animals were larger and stronger than others, or they yielded more food, or they had some other trait that humans valued. Therefore, they were bred because of those traits. Individuals with those traits were brought together and allowed to breed in the hope that their offspring would have the same traits in greater measure.

Much the same thing was done with plants. To produce bigger or sweeter fruit, or grow more grain per unit of land, strains of plants were combined and recombined to produce hybrids, or crossbreeds that had the desired traits in the right combinations. All the while, however, biologists wondered: is there a more direct and versatile way to change the traits of plants and animals? Could we rewrite, so to speak, the heredity of organisms to make them serve our needs better?

In the 20th century, genetic modification made such changes possible at last. Now, it was possible to alter the genetic code without using the slow and uncertain process of selective breeding. It even became possible to blend plants and animals genetically: to insert animal genes into plants, for example, in order to give the plants a certain trait they ordinarily would lack, such as resistance to freezing. The result was a tremendous potential to change the very nature of biology

What is the passage mainly about? 

A. The arguments against genetic modification 

B. The benefits brought about by genetic modification 

C. The reasons behind selective breeding of plants 

D. The development of genetic modification 

1
21 tháng 3 2018

Chọn D

Kiến thức: Đọc hiểu

Giải thích:

Bài đọc chủ yếu nói về điều gì?

  A. Các tranh cãi chống lại biến đổi gen

  B. Những lợi ích được đem lại bởi biến đổi gen

  C. Những lí do đằng sau việc gây giống cây trồng có chọn lọc

 

  D. Sự phát triển của biến đổi gen 

 

Read the following passage and mark the letter A, B, C, or D on your answer sheet to indicate the correct answer to each of the questions from 30 to 34. Genetic modification of foods is not a new practice. It has been practiced for thousands of years under the name of "selective breeding". Animals and plants were chosen because they had traits that humans found useful. Some animals were larger and stronger than others, or they yielded more food, or they had some other trait that humans valued....
Đọc tiếp

Read the following passage and mark the letter A, B, C, or D on your answer sheet to indicate the correct answer to each of the questions from 30 to 34.

Genetic modification of foods is not a new practice. It has been practiced for thousands of years under the name of "selective breeding". Animals and plants were chosen because they had traits that humans found useful. Some animals were larger and stronger than others, or they yielded more food, or they had some other trait that humans valued. Therefore, they were bred because of those traits. Individuals with those traits were brought together and allowed to breed in the hope that their offspring would have the same traits in greater measure.

Much the same thing was done with plants. To produce bigger or sweeter fruit, or grow more grain per unit of land, strains of plants were combined and recombined to produce hybrids, or crossbreeds that had the desired traits in the right combinations. All the while, however, biologists wondered: is there a more direct and versatile way to change the traits of plants and animals? Could we rewrite, so to speak, the heredity of organisms to make them serve our needs better?

In the 20th century, genetic modification made such changes possible at last. Now, it was possible to alter the genetic code without using the slow and uncertain process of selective breeding. It even became possible to blend plants and animals genetically: to insert animal genes into plants, for example, in order to give the plants a certain trait they ordinarily would lack, such as resistance to freezing. The result was a tremendous potential to change the very nature of biology.

What is the passage mainly about?

A. The arguments against genetic modification

B. The benefits brought about by genetic modification

C. The reasons behind selective breeding of plants

D. The development of genetic modification

1
26 tháng 7 2017

Bài đọc chủ yếu nói về cái gì?

A. Những tranh cãi chống lại việc biến đổi gen

B. Những lợi ích mang lại từ việc biến đổi gen

C. Những lí do đằng sau việc gây giống chọn lọc thực vật

D. Sự phát triển của việc biến đổi gen

Chọn D

Read the following passage and mark the letter A, B, C, or D on your answer sheet to indicate the correct answer to each of the questions from 30 to 34.Genetic modification of foods is not a new practice. It has been practiced for thousands of years under the name of "selective breeding". Animals and plants were chosen because they had traits that humans found useful. Some animals were larger and stronger than others, or they yielded more food, or they had some other trait that humans valued....
Đọc tiếp

Read the following passage and mark the letter A, B, C, or D on your answer sheet to indicate the correct answer to each of the questions from 30 to 34.

Genetic modification of foods is not a new practice. It has been practiced for thousands of years under the name of "selective breeding". Animals and plants were chosen because they had traits that humans found useful. Some animals were larger and stronger than others, or they yielded more food, or they had some other trait that humans valued. Therefore, they were bred because of those traits. Individuals with those traits were brought together and allowed to breed in the hope that their offspring would have the same traits in greater measure.

Much the same thing was done with plants. To produce bigger or sweeter fruit, or grow more grain per unit of land, strains of plants were combined and recombined to produce hybrids, or crossbreeds that had the desired traits in the right combinations. All the while, however, biologists wondered: is there a more direct and versatile way to change the traits of plants and animals? Could we rewrite, so to speak, the heredity of organisms to make them serve our needs better?

In the 20th century, genetic modification made such changes possible at last. Now, it was possible to alter the genetic code without using the slow and uncertain process of selective breeding. It even became possible to blend plants and animals genetically: to insert animal genes into plants, for example, in order to give the plants a certain trait they ordinarily would lack, such as resistance to freezing. The result was a tremendous potential to change the very nature of biology

The word "them" in paragraph 2 refers to ______. 

A. organisms 

B. traits 

C. animals 

D. plants 

1
28 tháng 9 2018

Chọn A

Kiến thức: Đọc hiểu

Giải thích:

Từ “them” trong đoạn 2 đề cập tới?

  A. organisms (n): sinh vật                         

B. traits (n): đặc điểm

  C. animals (n): động vật                                                              

D. plants (n): thực vật

Thông tin: Could we rewrite, so to speak, the heredity of organisms to make them serve our needs better?

 

Tạm dịch: Chúng ta có thể viết lại, có thể nói vậy, sự di truyền của các sinh vật để khiến chúng phục vụ nhu cầu của chúng ta tốt hơn? 

 

Read the following passage and mark the letter A, B, C, or D on your answer sheet to indicate the correct answer to each of the questions from 30 to 34. Genetic modification of foods is not a new practice. It has been practiced for thousands of years under the name of "selective breeding". Animals and plants were chosen because they had traits that humans found useful. Some animals were larger and stronger than others, or they yielded more food, or they had some other trait that humans valued....
Đọc tiếp

Read the following passage and mark the letter A, B, C, or D on your answer sheet to indicate the correct answer to each of the questions from 30 to 34.

Genetic modification of foods is not a new practice. It has been practiced for thousands of years under the name of "selective breeding". Animals and plants were chosen because they had traits that humans found useful. Some animals were larger and stronger than others, or they yielded more food, or they had some other trait that humans valued. Therefore, they were bred because of those traits. Individuals with those traits were brought together and allowed to breed in the hope that their offspring would have the same traits in greater measure.

Much the same thing was done with plants. To produce bigger or sweeter fruit, or grow more grain per unit of land, strains of plants were combined and recombined to produce hybrids, or crossbreeds that had the desired traits in the right combinations. All the while, however, biologists wondered: is there a more direct and versatile way to change the traits of plants and animals? Could we rewrite, so to speak, the heredity of organisms to make them serve our needs better?

In the 20th century, genetic modification made such changes possible at last. Now, it was possible to alter the genetic code without using the slow and uncertain process of selective breeding. It even became possible to blend plants and animals genetically: to insert animal genes into plants, for example, in order to give the plants a certain trait they ordinarily would lack, such as resistance to freezing. The result was a tremendous potential to change the very nature of biology.

The word "blend" in paragraph 3 mostly means ______.

A. combine

B. collect 

C. gather 

D. carry 

1
5 tháng 1 2020

Từ “blend” trong đoạn 3 gần nghĩa với _____.

A. combine (v): trộn, kết hợp

B. collect (v): thu thập

C. gather (v): tập trung

D. carry (v): mang, vác, xách

Thông tin: It even became possible to blend plants and animals genetically: to insert animal genes into plants, for example, in order to give the plants a certain trait they ordinarily would lack, such as resistance to freezing.

Tạm dịch: Thậm chí, người ta có thể trộn thực vật và động vật về mặt di truyền: ví dụ, lấy gen động vật chèn vào thực vật, để tạo cho cây một đặc điểm nhất định mà chúng thường thiếu, chẳng hạn như chống lại sự đóng băng.

Chọn A

Read the following passage and mark the letter A, B, C, or D on your answer sheet to indicate the correct answer to each of the questions from 30 to 34.Genetic modification of foods is not a new practice. It has been practiced for thousands of years under the name of "selective breeding". Animals and plants were chosen because they had traits that humans found useful. Some animals were larger and stronger than others, or they yielded more food, or they had some other trait that humans valued....
Đọc tiếp

Read the following passage and mark the letter A, B, C, or D on your answer sheet to indicate the correct answer to each of the questions from 30 to 34.

Genetic modification of foods is not a new practice. It has been practiced for thousands of years under the name of "selective breeding". Animals and plants were chosen because they had traits that humans found useful. Some animals were larger and stronger than others, or they yielded more food, or they had some other trait that humans valued. Therefore, they were bred because of those traits. Individuals with those traits were brought together and allowed to breed in the hope that their offspring would have the same traits in greater measure.

Much the same thing was done with plants. To produce bigger or sweeter fruit, or grow more grain per unit of land, strains of plants were combined and recombined to produce hybrids, or crossbreeds that had the desired traits in the right combinations. All the while, however, biologists wondered: is there a more direct and versatile way to change the traits of plants and animals? Could we rewrite, so to speak, the heredity of organisms to make them serve our needs better?

In the 20th century, genetic modification made such changes possible at last. Now, it was possible to alter the genetic code without using the slow and uncertain process of selective breeding. It even became possible to blend plants and animals genetically: to insert animal genes into plants, for example, in order to give the plants a certain trait they ordinarily would lack, such as resistance to freezing. The result was a tremendous potential to change the very nature of biology

The word "blend" in paragraph 3 mostly means ______. 

A. combine 

B. collect 

C. gather 

D. carry 

1
10 tháng 3 2018

Chọn A

Kiến thức: Đọc hiểu

Giải thích:

Từ “blend” trong đoạn 3 có nghĩa?

“blend” (v): pha trộn

  A. combine (v): kết hợp                                                               

B. collect (v): thu lượm

  C. gather (v): tụ tập                                  

D. carry (v): mang

=> blend = combine

Thông tin: It even became possible to blend plants and animals genetically: to insert animal genes into plants, for example, in order to give the plants a certain trait they ordinarily would lack, such as resistance to freezing.

Tạm dịch: Thậm chí đã trở nên có khả năng pha trộn về gen của thực vật và động vật: để chèn các gen động vật vào thực vật, ví dụ, để cung cấp cho thực vật một đặc tính nhất định mà chúng nói chung đang thiếu, như là khả năng chống đóng băng