「salinity」の共起表現一覧(1語右で並び替え)

salinity

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  • determined their tolerance for changes in the salinity and the ionic balance of the surrounding wate
  • irrigation, some waters are naturally high in salinity and sodium adsorption ratio.
  • as well as other factors such as the water's salinity, and the volume of water locked up in ice she
  • Increasing water temperature, salinity and bacterial levels led to massive fish die-
  • rne active/passive microwave system for ocean salinity and soil moisture sensing.
  • source contaminants, while still lowering the salinity, and improving the taste.
  • able and less prone to fluctuations of pH and salinity, and mitigating also the effects of nutrient
  • Combat of Salinity and Soil Erosion
  • About 150 m of steeply rising salinity and increasing temperature.
  • It is highly tolerant of salinity and drought and may be used as an indicator o
  • This is due to lowered salinity and temperature change near the poles.
  • tive to minor perturbations in, for instance, salinity and temperature.
  • environment, such as changes in temperature, salinity, and the abundance of food.
  • eping, a refractometer is used to measure the salinity and specific gravity of the water.
  • depending environmental conditions including salinity and temperature, as well as location.
  • ase, which is dependent on water temperature, salinity and food supply.
  • It is also able to tolerate large changes in salinity and pH and can survive without oxygen for 2-4
  • aterial properties of the subsurface, such as salinity and saturation.
  • Salinity and erosion are also becoming an issue in the
  • mone has quite a high tolerance to changes in salinity and to a high concentration of organic matter
  • creases strongly with increasing pressure and salinity and decreasing temperature.
  • is known to withstand large changes in water salinity, and so has also been found in shallow rivers
  • Varying degrees of salinity and temperature act to modify the density of
  • ommon examples include potential temperature, salinity, and concentration of CFCs, tritium (introduc
  • flux of the river, resulting in fairly stable salinity and temperature regimes.
  • Mytilopsis can tolerate wide fluctuations in salinity as adults.
  • Chorinity is related to salinity as,
  • Threats to the salinity balance from increased fresh water influxes w
  • As the ash weathers, its salinity, boron level and pH all fall; the former two
  • However salinity caused by irrigation and water-logging are of
  • ts such as estuaries and tide pools where the salinity changes regularly.
  • Properties include temperature, salinity, chemical - isotopic ratios, and other physic
  • lti-site system from tidal freshwater to high salinity conditions along the York River estuary.
  • The salinity contained with the oceans acts as a catalyst
  • nde has regulated the inlet's water level and salinity content at the lock, which facilitates water
  • des past the Miami International Airport to a salinity control center near the Miami River.
  • els, the cave was formed during the Messinian salinity crisis 6 million years ago, when the Mediterr
  • It arrived after the Messinian salinity crisis and lived during the Pleistocene on Ma
  • This was during the Messinian salinity crisis, when darinage basins throughout the M
  • e Mediterranean region known as the Messinian Salinity Crisis.
  • e Miocene, perhaps during the early Messinian salinity crisis.
  • y, which collects sub-surface temperature and salinity data.
  • The salinity derives from Permian red beds, and has a stro
  • The WOA fields include ocean temperature, salinity, dissolved oxygen, apparent oxygen utilisatio
  • nce found in hypersaline lakes and other high salinity environments.
  • particularly Merinos, although problems with salinity, erosion and drought are common.
  • l zone, eelgrass beds and estuaries where the salinity fluctuates over the range 5-34 psu, and they
  • ospheric conditions; sea surface temperature, salinity, fluorescence; bottom depth; dissolved oxygen
  • Annual mean sea surface salinity for the World Ocean.
  • Ever-increasing salinity from agricultural runoff from both the Coache
  • With the lack of an outlet, salinity has increased by approximately 1% per year.
  • sful because it grows fast, tolerates reduced salinity, has a lower temperature tolerance than Chtha
  • juveniles but need to kept in water with some salinity in order for this fish to thrive.
  • The degree of salinity in oceans is a driver of the world's ocean ci
  • by the unique combination of temperature and salinity in the density stratified oceans.
  • Impact on currents and salinity in the Mediterranean.
  • Griffith site because of concerns relating to salinity in the environment.
  • The salinity is a result of the endorheic nature of the hy
  • clines during the years of low water when the salinity is high.
  • Water salinity is approximately 0.7 per mil.
  • Its resistance to salinity is remarkable.
  • The salinity is the major environmental factor, controllin
  • Symptoms will present if salinity is greater than 1200 parts per million.
  • From mid-November to mid-April, when the salinity is high, prawn farming takes over.
  • s are all regarded as thalassic because their salinity is derived from the ocean and defined as homo
  • was a postdocoral scientist at the USDA U.S. Salinity Laboratory in Riverside CA.
  • Between 1946 and 1948 and in 1968, the salinity level in the bay exceeded 100‰ killing much f
  • ltivated from June to early November when the salinity level of the water in the fields is low.
  • The salinity level of tap water at Zhuhai was reported to
  • is the saltiest body of water on earth with a salinity level of over 40%.
  • As water evaporates during the dry season, salinity levels increase to the point that salt-loving
  • result of sea-level rise from climate change, salinity levels can reach levels where agriculture bec
  • the upper middle shore and is tolerant of low salinity levels where fresh water enters the sea.
  • uations in marine environments, which affects salinity levels, which in turn facilitate the substitu
  • Soil may require testing to determine salinity levels.
  • ity to grow on sandy soils, it tolerates high salinity, making it ideal for erosion control and lawn
  • Salinity Management at Toolibin Lake, Western Australi
  • river is dependent on flow but has an average salinity of 110 mg/L and a turbidity of 78 NTU.
  • This in turn has increased the salinity of Orumiyeh's water, causing the lake to lose
  • freshwater, such as rivers and lakes, with a salinity of less than 0.05%.
  • The Aswan Dam tends to increase the salinity of the Mediterranean Sea, and this affects th
  • human or animal consumption, or to reduce the salinity of river water prior to its crossing an inter
  • , depending on the frequency employed and the salinity of the water.
  • Currently, the Salton Sea has a salinity of 4.4% (4.4 parts per 100), making it saltie
  • time of Thannermukkom bund which changed the salinity of the area and had adverse effect on the coc
  • , most of them can not adjust to the variable salinity of the Sea of Azov, except for the euryhaline
  • to the Persian Gulf, directly increasing the salinity of the wetlands.
  • ure and/or temperature dependence (and/or the salinity of the aqueous phase), which may be used to i
  • Increased salinity of soil made the land inhospitable to life, i
  • is found in marine and brackish waters with a salinity of 20-40 ppt.
  • The springs produced water with a salinity of 43‰ that fed the Prairie Dog Town Fork of
  • Contributing to the salinity of the drain water was the highly-mobile ion
  • The salinity of the oceans is derived from erosion and tra
  • to spatial variations in the temperature and salinity of seawater whose effects on density cancel e
  • The parasite cannot survive in the high salinity of sea water, so the infection is not spread
  • Changes in the salinity of the oceans are thought to contribute to gl
  • This is because of the salinity of the lake; when the wind blows, white salt
  • The salinity of the bay decreased as the San Antonio River
  • Poor drainage and salinity on the site rendered the soil inadequate to s
  • With salinity one of the most significant threats to be fac
  • Further, with its extremely high salinity optimum of 27% NaCl, Halorhabdus has one of t
  • tection against osmotic stress, drought, high salinity or high temperature.
  • of such conditions are i.e. high light, high salinity or low nutrients.
  • ometer capable of resolving soil moisture and salinity over small regions of surface.
  • mand an EIA to assess the impact flooding and salinity problems would cause especially because the n
  • logist Dr Tony Smith, as a possible remedy to salinity problems.
  • climate, the bay has a relatively high water salinity reaching 75‰ (parts per thousand) in its nort
  • H. tridens has a salinity requirement which lies between those of two o
  • alterations in the specific moisture, pH, and salinity requirements of the plant season by season, a
  • rbanization, and poor farming practices; soil salinity rising due to the use of poor quality water;
  • lis is a euryhaline (tolerate a wide range of salinity) rotifer in the Family Brachionidae, and is p
  • ing air temperature, sea surface temperature, salinity, soil moisture, sea ice, precipitation, the t
  • cover was also linked with the development of salinity, soil degradation and erosion, and declining
  • Atlantic Hagfish) that maintains its internal salinity such that it is always equal to the surroundi
  • found in shallow waters of low or fluctuating salinity, such as lagoons and estuaries.
  • s would adjust in environments with different salinity, temperature, and pH.
  • By virtue of its high levels of salinity, the lake does not sustain any fish species.
  • ographic land form or by the inland extent of salinity, then the estuary extends only as far as Welc
  • BT which also measures conductivity, allowing salinity to be computed, is termed an XCTD.
  • onsidered a pollutant, because it reduces the salinity too much for the grass to survive; management
  • tes, dibromochloromethane, volatile organics, salinity, total dissolved solids and other pesticides.
  • Graphic example of soil salinity trends in the transition zone
  • umented ferries for near surface temperature, salinity, turbidity, chlorophyll and later, nutrient d
  • Salinity varies within the lakes and with their water
  • About 50 m of low salinity water "swimming" on top of the ocean.
  • Its relatively high salinity, which aids flotation, and remarkable sportin
  • Salinity will present in roses as limp and light brown