Microbes that live in shallow lakes and ponds produce methane, a harmful greenhouse gas. Ecologist Ralf Aben and his team wanted to see how different types of shallow-water plants might affect the amount of methane that escapes into the atmosphere. Aben’s team set up some water tanks with soil and microbes from local ponds. Some tanks had a type of underwater plant that grows in the soil called watermilfoil. Other tanks had either duckweed, a type of plant that floats on the water’s surface, or algae. Aben and his team found that tanks with duckweed and algae released higher levels of methane than tanks with watermilfoil did. This finding suggests that ______
Which choice most logically completes the text?
Choose 1 answer:
Choose 1 answer:
(Choice A) shallow lakes and ponds are more likely to contain algae than to contain either watermilfoil or duckweed.
A
shallow lakes and ponds are more likely to contain algae than to contain either watermilfoil or duckweed.
(Choice B) shallow lakes and ponds release more methane than deeper bodies of water because shallow bodies of water usually have more plants than deep bodies of water do.
B
shallow lakes and ponds release more methane than deeper bodies of water because shallow bodies of water usually have more plants than deep bodies of water do.
(Choice C) the presence of some kinds of underwater plants like watermilfoil helps prevent methane from escaping shallow lakes and ponds.
C
the presence of some kinds of underwater plants like watermilfoil helps prevent methane from escaping shallow lakes and ponds.
(Choice D) having a mix of algae, underwater plants, and floating plants is the best way to reduce the amount of methane in shallow lakes and ponds.
D
having a mix of algae, underwater plants, and floating plants is the best way to reduce the amount of methane in shallow lakes and ponds.Microbes that live in shallow lakes and ponds produce methane, a harmful greenhouse gas. Ecologist Ralf Aben and his team wanted to see how different types of shallow-water plants might affect the amount of methane that escapes into the atmosphere. Aben’s team set up some water tanks with soil and microbes from local ponds. Some tanks had a type of underwater plant that grows in the soil called watermilfoil. Other tanks had either duckweed, a type of plant that floats on the water’s surface, or algae. Aben and his team found that tanks with duckweed and algae released higher levels of methane than tanks with watermilfoil did. This finding suggests that ______
Which choice most logically completes the text?
Choose 1 answer:
Choose 1 answer:
(Choice A) shallow lakes and ponds are more likely to contain algae than to contain either watermilfoil or duckweed.
A
shallow lakes and ponds are more likely to contain algae than to contain either watermilfoil or duckweed.
(Choice B) shallow lakes and ponds release more methane than deeper bodies of water because shallow bodies of water usually have more plants than deep bodies of water do.
B
shallow lakes and ponds release more methane than deeper bodies of water because shallow bodies of water usually have more plants than deep bodies of water do.
(Choice C) the presence of some kinds of underwater plants like watermilfoil helps prevent methane from escaping shallow lakes and ponds.
C
the presence of some kinds of underwater plants like watermilfoil helps prevent methane from escaping shallow lakes and ponds.
(Choice D) having a mix of algae, underwater plants, and floating plants is the best way to reduce the amount of methane in shallow lakes and ponds.
D
having a mix of algae, underwater plants, and floating plants is the best way to reduce the amount of methane in shallow lakes and ponds.