FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3003286332> ?p ?o ?g. }

• W3003286332 endingPage "4060" @default.
• W3003286332 startingPage "4045" @default.
• W3003286332 abstract "Abstract. Measurements of the isotopic composition of separate and potentially interacting pools of soil water provide a powerful means to precisely resolve plant water sources and quantify water residence time and connectivity among soil water regions during recharge events. Here we present an approach for quantifying the time-dependent isotopic mixing of water recovered at separate suction pressures or tensions in soil over an entire moisture release curve. We wetted oven-dried, homogenized sandy loam soil first with isotopically “light” water (δ2H =-130 ‰; δ18O =-17.6 ‰) to represent antecedent moisture held at high matric tension. We then brought the soil to near saturation with “heavy” water (δ2H =-44 ‰; δ18O =-7.8 ‰) that represented new input water. Soil water samples were subsequently sequentially extracted at three tensions (“low-tension” centrifugation ≈0.016 MPa; “mid-tension” centrifugation ≈1.14 MPa; and “high-tension” cryogenic vacuum distillation at an estimated tension greater than 100 MPa) after variable equilibration periods of 0 h, 8 h, 1 d, 3 d, and 7 d. We assessed the differences in the isotopic composition of extracted water over the 7 d equilibration period with a MANOVA and a model quantifying the time-dependent isotopic mixing of water towards equilibrium via self-diffusion. The simplified and homogenous soil structure and nearly saturated moisture conditions used in our experiment likely facilitated rapid isotope mixing and equilibration among antecedent and new input water. Despite this, the isotope composition of waters extracted at mid compared with high tension remained significantly different for up to 1 d, and waters extracted at low compared with high tension remained significantly different for longer than 3 d. Complete mixing (assuming no fractionation) for the pool of water extracted at high tension occurred after approximately 4.33 d. Our combination approach involving the extraction of water over different domains of the moisture release curve will be useful for assessing how soil texture and other physical and chemical properties influence isotope exchange and mixing times for studies aiming to properly characterize and interpret the isotopic composition of extracted soil and plant waters, especially under variably unsaturated conditions." @default.
• W3003286332 created "2020-02-07" @default.
• W3003286332 creator A5039799726 @default.
• W3003286332 creator A5052466686 @default.
• W3003286332 creator A5065317824 @default.
• W3003286332 creator A5091071266 @default.
• W3003286332 date "2020-08-20" @default.
• W3003286332 modified "2023-10-16" @default.
• W3003286332 title "A combination of soil water extraction methods quantifies the isotopic mixing of waters held at separate tensions in soil" @default.
• W3003286332 cites W1598818379 @default.
• W3003286332 cites W1773894613 @default.
• W3003286332 cites W1862954538 @default.
• W3003286332 cites W1933028286 @default.
• W3003286332 cites W1977329063 @default.
• W3003286332 cites W2003235507 @default.
• W3003286332 cites W2035938858 @default.
• W3003286332 cites W2039473213 @default.
• W3003286332 cites W2043547680 @default.
• W3003286332 cites W2055688630 @default.
• W3003286332 cites W2071443717 @default.
• W3003286332 cites W2098787944 @default.
• W3003286332 cites W2122941804 @default.
• W3003286332 cites W2124351276 @default.
• W3003286332 cites W2162167094 @default.
• W3003286332 cites W2162604832 @default.
• W3003286332 cites W2166897237 @default.
• W3003286332 cites W2264283620 @default.
• W3003286332 cites W2276168176 @default.
• W3003286332 cites W2336308352 @default.
• W3003286332 cites W2554312121 @default.
• W3003286332 cites W2577537660 @default.
• W3003286332 cites W2582562432 @default.
• W3003286332 cites W2585023983 @default.
• W3003286332 cites W2587083163 @default.
• W3003286332 cites W2594748282 @default.
• W3003286332 cites W2774557542 @default.
• W3003286332 cites W2884007345 @default.
• W3003286332 cites W2908074124 @default.
• W3003286332 cites W2914003366 @default.
• W3003286332 cites W2914976565 @default.
• W3003286332 cites W2916913368 @default.
• W3003286332 cites W2919968477 @default.
• W3003286332 cites W2922263243 @default.
• W3003286332 cites W2935296577 @default.
• W3003286332 cites W2940211156 @default.
• W3003286332 cites W2948001470 @default.
• W3003286332 cites W2956754493 @default.
• W3003286332 cites W2983263472 @default.
• W3003286332 doi "https://doi.org/10.5194/hess-24-4045-2020" @default.
• W3003286332 hasPublicationYear "2020" @default.
• W3003286332 type Work @default.
• W3003286332 sameAs 3003286332 @default.
• W3003286332 citedByCount "17" @default.
• W3003286332 countsByYear W30032863322020 @default.
• W3003286332 countsByYear W30032863322021 @default.
• W3003286332 countsByYear W30032863322022 @default.
• W3003286332 countsByYear W30032863322023 @default.
• W3003286332 crossrefType "journal-article" @default.
• W3003286332 hasAuthorship W3003286332A5039799726 @default.
• W3003286332 hasAuthorship W3003286332A5052466686 @default.
• W3003286332 hasAuthorship W3003286332A5065317824 @default.
• W3003286332 hasAuthorship W3003286332A5091071266 @default.
• W3003286332 hasBestOaLocation W30032863321 @default.
• W3003286332 hasConcept C107872376 @default.
• W3003286332 hasConcept C113578266 @default.
• W3003286332 hasConcept C114614502 @default.
• W3003286332 hasConcept C121332964 @default.
• W3003286332 hasConcept C127313418 @default.
• W3003286332 hasConcept C138777275 @default.
• W3003286332 hasConcept C159390177 @default.
• W3003286332 hasConcept C159750122 @default.
• W3003286332 hasConcept C174091901 @default.
• W3003286332 hasConcept C185592680 @default.
• W3003286332 hasConcept C187320778 @default.
• W3003286332 hasConcept C22117777 @default.
• W3003286332 hasConcept C24939127 @default.
• W3003286332 hasConcept C33923547 @default.
• W3003286332 hasConcept C39432304 @default.
• W3003286332 hasConcept C62520636 @default.
• W3003286332 hasConcept C75622301 @default.
• W3003286332 hasConcept C76177295 @default.
• W3003286332 hasConcept C76886044 @default.
• W3003286332 hasConcept C8892853 @default.
• W3003286332 hasConcept C9930424 @default.
• W3003286332 hasConceptScore W3003286332C107872376 @default.
• W3003286332 hasConceptScore W3003286332C113578266 @default.
• W3003286332 hasConceptScore W3003286332C114614502 @default.
• W3003286332 hasConceptScore W3003286332C121332964 @default.
• W3003286332 hasConceptScore W3003286332C127313418 @default.
• W3003286332 hasConceptScore W3003286332C138777275 @default.
• W3003286332 hasConceptScore W3003286332C159390177 @default.
• W3003286332 hasConceptScore W3003286332C159750122 @default.
• W3003286332 hasConceptScore W3003286332C174091901 @default.
• W3003286332 hasConceptScore W3003286332C185592680 @default.
• W3003286332 hasConceptScore W3003286332C187320778 @default.
• W3003286332 hasConceptScore W3003286332C22117777 @default.
• W3003286332 hasConceptScore W3003286332C24939127 @default.
• W3003286332 hasConceptScore W3003286332C33923547 @default.

• next