SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3029596162> ?p ?o ?g. }

Showing items 1 to 100 of ±138 with 100 items per page.

W3029596162 endingPage "106581" @default.
W3029596162 startingPage "106581" @default.
W3029596162 abstract "Nickel hyperaccumulators are plants that can absorb a large amount of Ni in their tissues. Nickel hyperaccumulators have a strong potential to be used as bioindicators in mineral explorations. Previous studies show that analysis of magnetic susceptibility has a potential to accelerate the screening of Ni hyperaccumulators. In this study, we investigated the use magnetic characterizations for screening directly Ni hyperaccumulators and non-Ni hyperaccumulators from ultramafic regions. For comparison, the characterization of Ni hyperaccumulators was also performed on Alyssum murale and Alyssum corsicum, which were cultivated on lateritic soils. The metals concentrations in the tissues were determined via inductively coupled plasma optical emission spectroscopy analysis, atomic absorption spectroscopy analysis, and X-ray fluorescence analysis. The magnetic characterizations were conducted by magnetic susceptibility measurement, acquisition of hysteresis curves, and analysis of the thermomagnetic properties. The results showed that the concentration of Ni in A. murale and A. corsicum were correlated to the magnetic susceptibility values. Concurrently, all samples had negative magnetic susceptibility values were non-Ni hyperaccumulators. Two new species of Ni hyperaccumulators were found in Halmahera and Sulawesi and have high potential for use in phytoremediation, phytomining or mineral exploration." @default.
W3029596162 created "2020-06-05" @default.
W3029596162 creator A5004160517 @default.
W3029596162 creator A5032201898 @default.
W3029596162 creator A5047374275 @default.
W3029596162 creator A5052710316 @default.
W3029596162 creator A5057738288 @default.
W3029596162 creator A5063127223 @default.
W3029596162 date "2020-09-01" @default.
W3029596162 modified "2023-09-26" @default.
W3029596162 title "Use and validation of magnetic properties for differentiating nickel hyperaccumulators and non-nickel hyperaccumulators in ultramafic regions" @default.
W3029596162 cites W1177196680 @default.
W3029596162 cites W1935778529 @default.
W3029596162 cites W1965621340 @default.
W3029596162 cites W1966951005 @default.
W3029596162 cites W1972437510 @default.
W3029596162 cites W1978347760 @default.
W3029596162 cites W1983394946 @default.
W3029596162 cites W2004993647 @default.
W3029596162 cites W2007856561 @default.
W3029596162 cites W2018862642 @default.
W3029596162 cites W2033307153 @default.
W3029596162 cites W2036686247 @default.
W3029596162 cites W2042577503 @default.
W3029596162 cites W2045143152 @default.
W3029596162 cites W2047242701 @default.
W3029596162 cites W2054831299 @default.
W3029596162 cites W2056566320 @default.
W3029596162 cites W2059445415 @default.
W3029596162 cites W2059593166 @default.
W3029596162 cites W2063916821 @default.
W3029596162 cites W2066314695 @default.
W3029596162 cites W2066868804 @default.
W3029596162 cites W2079260264 @default.
W3029596162 cites W2082952851 @default.
W3029596162 cites W2085893561 @default.
W3029596162 cites W2101534663 @default.
W3029596162 cites W2106221670 @default.
W3029596162 cites W2106557503 @default.
W3029596162 cites W2113764015 @default.
W3029596162 cites W2118728537 @default.
W3029596162 cites W2145135708 @default.
W3029596162 cites W2147151193 @default.
W3029596162 cites W2160117700 @default.
W3029596162 cites W2171038976 @default.
W3029596162 cites W2206037158 @default.
W3029596162 cites W2231816893 @default.
W3029596162 cites W2314174570 @default.
W3029596162 cites W2324934270 @default.
W3029596162 cites W2325979074 @default.
W3029596162 cites W2518973520 @default.
W3029596162 cites W2529420382 @default.
W3029596162 cites W2590747375 @default.
W3029596162 cites W2603525139 @default.
W3029596162 cites W2604707796 @default.
W3029596162 cites W2740582006 @default.
W3029596162 cites W2776568961 @default.
W3029596162 cites W2795356703 @default.
W3029596162 cites W2803527489 @default.
W3029596162 cites W2805716702 @default.
W3029596162 cites W2805813412 @default.
W3029596162 cites W2806736011 @default.
W3029596162 cites W2900438558 @default.
W3029596162 cites W2906870948 @default.
W3029596162 cites W2911209461 @default.
W3029596162 cites W2935982873 @default.
W3029596162 cites W2940255263 @default.
W3029596162 cites W59657652 @default.
W3029596162 doi "https://doi.org/10.1016/j.gexplo.2020.106581" @default.
W3029596162 hasPublicationYear "2020" @default.
W3029596162 type Work @default.
W3029596162 sameAs 3029596162 @default.
W3029596162 citedByCount "3" @default.
W3029596162 countsByYear W30295961622022 @default.
W3029596162 countsByYear W30295961622023 @default.
W3029596162 crossrefType "journal-article" @default.
W3029596162 hasAuthorship W3029596162A5004160517 @default.
W3029596162 hasAuthorship W3029596162A5032201898 @default.
W3029596162 hasAuthorship W3029596162A5047374275 @default.
W3029596162 hasAuthorship W3029596162A5052710316 @default.
W3029596162 hasAuthorship W3029596162A5057738288 @default.
W3029596162 hasAuthorship W3029596162A5063127223 @default.
W3029596162 hasConcept C107872376 @default.
W3029596162 hasConcept C114260506 @default.
W3029596162 hasConcept C121332964 @default.
W3029596162 hasConcept C127313418 @default.
W3029596162 hasConcept C16889073 @default.
W3029596162 hasConcept C17409809 @default.
W3029596162 hasConcept C185592680 @default.
W3029596162 hasConcept C191897082 @default.
W3029596162 hasConcept C192562407 @default.
W3029596162 hasConcept C195081551 @default.
W3029596162 hasConcept C2776053758 @default.
W3029596162 hasConcept C504270822 @default.
W3029596162 hasConcept C62520636 @default.
W3029596162 hasConcept C63797996 @default.
W3029596162 hasConcept C8010536 @default.
W3029596162 hasConcept C82706917 @default.