Salinity example sentences

"Salinity" Example Sentences

1. The high salinity of the water made it undrinkable.
2. Salinity levels fluctuate seasonally due to rainfall and runoff.
3. The coral reefs were threatened by changes in ocean salinity.
4. Salinity affects the distribution and abundance of aquatic organisms.
5.The plant could only tolerate a narrow range of soil salinity.
6. Salinity levels increase when freshwater inflow is insufficient.
7. They monitored the salinity of the river during the dry season.
8. Ocean salinity varies with latitude, ocean depth, and currents.
9. Frequent testing is needed to monitor changes in water salinity.
10. The aquarium owners carefully regulated the salinity of the tanks.
11. Growing crops requires irrigating with water that matches soil salinity.
12. Many estuaries experience changes in salinity due to tides.
13. Excessive irrigation raised the salinity of valuable farmland.
14. Salinity levels in groundwater aquifers are increasing over time.
15. Researchers measured water salinity using special instruments.
16. Salinity stratification occurs when layers of different salinity meet.
17. The desalination plant would reduce coastal water salinity.
18. Freshwater influx from rain and rivers dilutes ocean salinity.
19. Salinity affected the thickness and stickiness of the fluid.
20. The fish eggs were carefully monitored to maintain proper salinity levels.
21. Increasing salinity threatens many freshwater habitats.
22. Wildlife management focused on maintaining optimal water salinity.
23. The machines calibrated the precise salinity of the solutions.
24. Salinity plays an important role in the water cycle.
25. Seawater generally has a constant salinity of around 35 parts per thousand.
26. Sediments trapped in coastal lagoons can increase salinity over time.
27. Water salinity was measured using both field tests and lab analyses.
28. Salinity levels vary widely in different parts of the ocean.
29. Some microbes thrive in environments with extreme salinity.
30. Salinity profiles measured variations with depth in lakes and oceans.
31. Scientists recorded changes in salinity over time in the estuary.
32. The company developed crops that could tolerate a wide range of soil salinity.
33. Low oxygen levels combined with high salinity killed many fish.
34. Draining wetlands increased soil salinity in surrounding areas.
35. Plants require precise salinity levels in their growth media.
36. Salinity sensors monitored conditions in real time for industries and research.
37. Blending salty and fresh water controlled the salinity of fish tanks.
38. Rising sea levels threaten to increase coastal water salinity.
39. Salinity gradients help generate ocean currents and water movement.
40. Water drainage issues contributed to elevated aquifer salinity.
41. Changes in salinity stress many estuarine and coastal species.
42. Salinity affected the electrical conductivity of the solution.
43. Construction inadvertently altered local water flow and salinity.
44. Melting glaciers threaten to change ocean salinity patterns.
45. Specialized devices measured pore water salinity in sediments.
46. Salinity was highest at the seaside and decreased into the estuary.
47. Scientists mapped historical salinity levels across the landscape.
48. Knowledge of water salinity helps manage water resources.
49. Ponds of differing salinities attracted different types of wildlife.
50. Land use changes can alter the salinity of groundwater.
51. Wastewater discharge contributed to higher salinity in coastal areas.
52. Salinity gradients power some green technologies.
53. Salinity-tolerant crops can help reduce problems with saline soils.
54. Evaporation concentrates salts and increases water salinity.
55. Salinity control systems prevented damage to industrial equipment.
56. Salinity levels affect water quality for wildlife and human use.
57. Saline soils limit opportunities for agriculture and development.
58. Salinity sensors provided constant monitoring in industrial processes.
59. Cities released desalinated water to reduce coastal salinity issues.
60. Human impacts increasingly threaten natural salinity balances.

Common Phases

1. The salinity of seawater is about 3.5%.
2. Salinity is high in areas with little rainfall and high evaporation.
3. Salinity levels vary over time due to changes in rainfall, river runoff, and evaporation.
4. The Dead Sea has some of the highest levels of salinity in the world due to its inability to drain into oceans.
5. Increasing salinity levels threatens the health of aquatic ecosystems and organisms.
6. Athletes drink sports drinks during events to replace electrolytes and maintain bodily fluid salinity.
7. Osmoregulation helps organisms regulate the salinity of their bodily fluids.
8. Most fish have a preferred salinity range that they flourish at.
9. An estuary's salinity level largely depends on the amount of freshwater runoff coming in.
10. Marine organisms are adapted to cope with a certain range of salinity fluctuations.
11. Low salinity levels in irrigation water can damage crops.
12. Desalination plants reduce the salinity of seawater to produce fresh drinking water.
13. Groundwater salinity increases due to excessive irrigation and loss of water through evaporation.
14. High salinity groundwater is unsuitable for irrigation and renders soils less fertile.
15. Areas with high soil salinity often require salt-tolerant plants.
16. Plants vary in their tolerance to salty soil conditions and high salinity levels.
17. Soil salinity affects a plant's ability to take up water through its roots.
18. Freshwater species cannot withstand the higher salinity of marine environments.
19. Estuarine fish have a wider tolerance for fluctuations in salinity.
20. Fog collects on coastal plants, lowering soil salinity through rainfall.
21. Salinity stratification occurs when layers of water with different salinity levels form.
22. Researchers measured salinity levels to determine the impact of wastewater effluent.
23. With global warming, rising sea levels are causing higher salinity in coastal groundwater.
24. Scientists are monitoring changes in salinity to track ocean acidification.
25. The salinity logger recorded daily fluctuations in salt concentrations.
26. Coastal development can alter wetland salinity through changes in drainage patterns.
27. They measured salinity at high and low tide to chart variations over the tidal cycle.
28. Salinity probes are used in estuaries and bays to obtain real-time salt concentration data.
29. Agriculture accounts for the majority of freshwater withdrawals, increasing soil salinity.
30. Removing excess salt from soils through leaching can help lower soil salinity.
31. Heavy rains can temporarily decrease surface water salinity by adding freshwater.
32. Industrial wastewater leaks increased salt concentrations and salinity around the site.
33. Brackish water with intermediary salinity levels supports unique estuarine ecosystems.
34. Rising salinity levels are threatening fish populations and biodiversity in coastal waters.
35. Oysters and clams help regulate salinity in estuaries through filter feeding.
36. Salinity affects a fish's ability to conserve water and osmoregulate bodily fluids.
37. The invasive mussel species thrives at higher salinity levels than native mussels.
38. Long dry periods lead to increased evaporation and higher surface water salinity.
39. Plants adapted to saline conditions possess strategies to limit salt uptake.
40. Dolphins and whales maintain salinity balance in their bodies through special glands.
41. Increased upstream tributary flows diluted the salinity of downstream sections of the bayou.
42. Seagrasses help stabilize sediments and moderate salinity fluctuations in estuaries.
43. The scientists took salinity measurements throughout the lake to map spatial variations.
44. High salinity makes it difficult for seeds to germinate and seedlings to establish.
45. Saltwater intrusion into aquifers has caused higher salinity levels in coastal wells.
46. The ponds were replenished with freshwater to reduce salinity for shrimp farming.
47. Brine pools formed as salinity levels in the lagoon increased through evaporation.
48. Birds are less sensitive to fluctuations in environmental salinity than marine mammals.
49. The inlet channel allowed tidal influx, raising salinity levels in the upper estuary.
50. Shrimp farming operations require careful regulation of pond salinity levels.
51. Shifts in currents and tides led to changes in coastal water salinity over time.
52. Storm surge from hurricanes caused short-term increases in salinity along shorelines.
53. The city implemented a desalination plant to lower salinity in its wastewater effluent.
54. Coral reef organisms are particularly sensitive to even small changes in salinity.
55. Biologists recorded abnormally high salinity spikes caused by red tide algal blooms.
56. Salinity gradients form naturally in estuaries, with highest levels near the mouth.
57. The lagoon supported a diverse array of species adapted to its variable salinity conditions.
58. Stormwater runoff led to spikes in salinity as freshwater carrying saltwater mixed with canals.
59. Channel dredging altered salinity regimes, impacting marine habitats and species distribution.
60. The oyster farm required precise regulation and monitoring of water salinity levels.