SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W1994023337> ?p ?o ?g. }

Showing items 1 to 100 of ±160 with 100 items per page.

W1994023337 endingPage "14" @default.
W1994023337 startingPage "9" @default.
W1994023337 abstract "Phytoremediation consists in treating environmental pollutions through the use of plants and their associated microbes. Phytoremediation can be used for pollutant stabilization, extraction, degradation or volatilization. Cadmium is one of the most toxic trace metallic elements for living organisms and its accumulation in the environment is recognized as a worldwide concern. Plants suitable for efficient pollutant extraction from the soil should combine different characteristics like fast growth, high biomass, high tolerance and high accumulation capacities in harvestable parts. A rare class of plants called hyperaccumulators combines extremely high tolerance degrees and foliar accumulation of trace elements. With regard to cadmium, none of the Cd hyperaccumulators identified has met the criteria for efficient phytoextraction so far. By virtue of genetic engineering it is possible to transfer genes involved in Cd tolerance or accumulation in high biomass plants. Nevertheless, the genetic determinants of Cd hyperaccumulation are far from being understood. It is thus indispensable to acquire more knowledge about these processes. Among Cd hyperaccumulators, Arabidopsis halleri (some populations can hyperaccumulate Cd) is considered as a model species for the study of metal homeostasis and detoxification. This review will summarize our knowledge about Cd tolerance and accumulation acquired in A. halleri and how this knowledge may be used in phytoextraction." @default.
W1994023337 created "2016-06-24" @default.
W1994023337 creator A5055998096 @default.
W1994023337 creator A5077504699 @default.
W1994023337 date "2012-11-01" @default.
W1994023337 modified "2023-09-26" @default.
W1994023337 title "The use of the model species Arabidopsis halleri towards phytoextraction of cadmium polluted soils" @default.
W1994023337 cites W1529362576 @default.
W1994023337 cites W1575211880 @default.
W1994023337 cites W1963878853 @default.
W1994023337 cites W1965035100 @default.
W1994023337 cites W1971552455 @default.
W1994023337 cites W1972016781 @default.
W1994023337 cites W1973094042 @default.
W1994023337 cites W1974364020 @default.
W1994023337 cites W1974965183 @default.
W1994023337 cites W1980194121 @default.
W1994023337 cites W1989306924 @default.
W1994023337 cites W1991174734 @default.
W1994023337 cites W1991743920 @default.
W1994023337 cites W1999260774 @default.
W1994023337 cites W2002277713 @default.
W1994023337 cites W2006592682 @default.
W1994023337 cites W2016791792 @default.
W1994023337 cites W2017862949 @default.
W1994023337 cites W2020454732 @default.
W1994023337 cites W2022263253 @default.
W1994023337 cites W2030921443 @default.
W1994023337 cites W2033350533 @default.
W1994023337 cites W2039071784 @default.
W1994023337 cites W2040236027 @default.
W1994023337 cites W2042352928 @default.
W1994023337 cites W2046798348 @default.
W1994023337 cites W2049592178 @default.
W1994023337 cites W2051233083 @default.
W1994023337 cites W2052480614 @default.
W1994023337 cites W2054239854 @default.
W1994023337 cites W2056566320 @default.
W1994023337 cites W2072018114 @default.
W1994023337 cites W2076679613 @default.
W1994023337 cites W2084151689 @default.
W1994023337 cites W2085178438 @default.
W1994023337 cites W2086764330 @default.
W1994023337 cites W2088329642 @default.
W1994023337 cites W2093138624 @default.
W1994023337 cites W2093685563 @default.
W1994023337 cites W2094921207 @default.
W1994023337 cites W2094974494 @default.
W1994023337 cites W2098169788 @default.
W1994023337 cites W2098251663 @default.
W1994023337 cites W2099147150 @default.
W1994023337 cites W2102189122 @default.
W1994023337 cites W2105052969 @default.
W1994023337 cites W2107950212 @default.
W1994023337 cites W2108850204 @default.
W1994023337 cites W2109476428 @default.
W1994023337 cites W2114935672 @default.
W1994023337 cites W2120331543 @default.
W1994023337 cites W2123295630 @default.
W1994023337 cites W2124187548 @default.
W1994023337 cites W2124893845 @default.
W1994023337 cites W2126546698 @default.
W1994023337 cites W2128262275 @default.
W1994023337 cites W2134066223 @default.
W1994023337 cites W2134072683 @default.
W1994023337 cites W2135948221 @default.
W1994023337 cites W2138191912 @default.
W1994023337 cites W2141746967 @default.
W1994023337 cites W2143317387 @default.
W1994023337 cites W2152352902 @default.
W1994023337 cites W2152829783 @default.
W1994023337 cites W2156215181 @default.
W1994023337 cites W2160338728 @default.
W1994023337 cites W2161920846 @default.
W1994023337 cites W2164314453 @default.
W1994023337 cites W2168745285 @default.
W1994023337 cites W2171796372 @default.
W1994023337 cites W4234602173 @default.
W1994023337 cites W4254064177 @default.
W1994023337 doi "https://doi.org/10.1016/j.nbt.2012.07.009" @default.
W1994023337 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/22850245" @default.
W1994023337 hasPublicationYear "2012" @default.
W1994023337 type Work @default.
W1994023337 sameAs 1994023337 @default.
W1994023337 citedByCount "58" @default.
W1994023337 countsByYear W19940233372012 @default.
W1994023337 countsByYear W19940233372013 @default.
W1994023337 countsByYear W19940233372014 @default.
W1994023337 countsByYear W19940233372015 @default.
W1994023337 countsByYear W19940233372016 @default.
W1994023337 countsByYear W19940233372017 @default.
W1994023337 countsByYear W19940233372018 @default.
W1994023337 countsByYear W19940233372019 @default.
W1994023337 countsByYear W19940233372020 @default.
W1994023337 countsByYear W19940233372021 @default.
W1994023337 countsByYear W19940233372022 @default.
W1994023337 countsByYear W19940233372023 @default.
W1994023337 crossrefType "journal-article" @default.