Current Affairs: Passage of the Day - 24 April 2024 | Current Affairs & General Knowledge - CLAT PDF Download

Directions: Read the passage carefully and answer the questions that follow.
High levels of cancer-causing heavy metals such as lead and chromium have been found in eight wetlands in Odisha, including Hirakud. The Hirakud reservoir is one of the largest human-made reservoirs in India.
The findings were recorded in a new study published in the journal Scientific Reports on September 28, 2023.
In the modern world, anthropogenic activities such as urbanisation, industrialisation and agricultural practices deposit heavy metals in wetlands, which act as heavy metal sinks, the researchers wrote in their study.
Heavy metal pollutants that commonly accumulate in wetlands as a result of human activity include lead, chromium, cadmium, copper, mercury, nickel, zinc, manganese and arsenic. These metals can enter crops through the soil, which are then consumed by humans.
The heavy metals can also enter the environment indirectly through the food chain.
“Since the water from these wetlands is not being drawn directly for human consumption, the only way for people in the surrounding community to indirectly consume it is by consuming various foods from that wetland, such as fish, rice, some vegetables and spinach,” read the paper.
Very little was known about wetland pollution in the study area, the researchers noted. So they aimed to do three things: Study the wetland soils for the accumulation of heavy metals such as lead, chromium, copper and zinc.
The second was to assess the ecological risk of wetlands inside agricultural landscapes and the third was to study the human health risk potential of lead and chromium.
Read more: New method for efficient removal of heavy metals from water
They selected eight wetlands: Natural ones such as Chandaneswar, Chilika, Daringbadi and Koraput as well as constructed ones like Bhadrak, Hirakud, Talcher and Titlagarh. Next, the researchers collected 144 samples from the eight identified wetlands.
They recorded the highest concentrations of lead (51.25 micrograms per gram) and chromium (266 micrograms per gram) in Hirakud.
They found the highest concentration of copper at the Bhadrak site, with 34.27 micrograms per gram. Koraput showed a higher abundance of zinc. All the sites, according to the findings, had a higher concentration of chromium than other studies had previously shown.
The researchers also calculated the ecological risk posed by heavy metal accumulation. The ecological risk index measures the potential ecological risk (RI) factor of all metals tested together.
The highest RI was found in Hirakud, followed by Talcher, Bhadrak, Titlagarh, Chilika, Chandaneswar, Koraput and Daringbadi.
As for carcinogenic risk, Hirakud topped the list among adults and children. “Industrial development in the study area poses carcinogenic effects due to the addition of heavy metals in soil from the effluents,” the study highlighted.
Besides, the western part of the study area is a hub for rice production. The contamination either happens through contaminated soils or the use of pesticides.
Previous studies have shown that the health of the local community is at risk if they consume rice contaminated with heavy metals.
“This could be one of the reasons for the increasingly higher number of cancer patients in the particular region of the study area, which is supported by previous studies,” the researchers wrote.
The findings of the paper could help frame successful policies and raise awareness, they added.
[Excerpt from Down To Earth “Hirakud, 7 other Odisha wetlands show high levels of toxic heavy metals” Dated 4/10/23]
Q1: Where were the highest concentrations of lead and chromium found in the wetlands?
(a) Chandaneswar
(b) Daringbadi
(c) Hirakud
(d) Titlagarh

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Q2: Which wetland exhibited the highest concentration of copper?
(a) Koraput
(b) Bhadrak
(c) Talcher
(d) Chilika

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Q3: What was the focus of the ecological risk assessment in the study?
(a) Soil fertility
(b) Heavy metal accumulation
(c) Wetland biodiversity
(d) Water quality

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Q4: Which wetland posed the highest carcinogenic risk among adults and children?
(a) Chilika
(b) Hirakud
(c) Titlagarh
(d) Daringbadi

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Q5: What is the primary source of heavy metal contamination in the western part of the study area?
(a) Agricultural runoff
(b) Industrial effluents
(c) Pesticide use
(d) Natural weathering

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Q6: How many wetland samples were collected for the study?
(a) 120
(b) 144
(c) 160
(d) 180

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Q7: Which wetland showed elevated levels of zinc in the study?
(a) Talcher
(b) Koraput
(c) Daringbadi
(d) Bhadrak

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Q8: What is emphasized as crucial in the conclusion for public health and environmental protection?
(a) Industrial regulations
(b) Agricultural practices
(c) Heavy metal awareness
(d) Wetland conservation

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