SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2001231850> ?p ?o ?g. }

Showing items 1 to 100 of ±158 with 100 items per page.

W2001231850 endingPage "17" @default.
W2001231850 startingPage "8" @default.
W2001231850 abstract "Approximately 500 species of plants are known to hyperaccumulate heavy metals and metalloids. The majority are obligate metallophytes, species that are restricted to metalliferous soils. However, a smaller but increasing list of plants are “facultative hyperaccumulators” that hyperaccumulate heavy metals when occurring on metalliferous soils, yet also occur commonly on normal, non-metalliferous soils. This paper reviews the biology of facultative hyperaccumulators and the opportunities they provide for ecological and evolutionary research. The existence of facultative hyperaccumulator populations across a wide edaphic range allows intraspecific comparisons of tolerance and uptake physiology. This approach has been used to study zinc and cadmium hyperaccumulation by Noccaea (Thlaspi) caerulescens and Arabidopsis halleri, and it will be instructive to make similar comparisons on species that are distributed even more abundantly on normal soil. Over 90% of known hyperaccumulators occur on serpentine (ultramafic) soil and accumulate nickel, yet there have paradoxically been few experimental studies of facultative nickel hyperaccumulation. Several hypotheses suggested to explain the evolution of hyperaccumulation seem unlikely when most populations of a species occur on normal soil, where plants cannot hyperaccumulate due to low metal availability. In such species, it may be that hyperaccumulation is an ancestral phylogenetic trait or an anomalous manifestation of physiological mechanisms evolved on normal soils, and may or may not have direct adaptive benefits." @default.
W2001231850 created "2016-06-24" @default.
W2001231850 creator A5025543219 @default.
W2001231850 creator A5062498580 @default.
W2001231850 creator A5083742684 @default.
W2001231850 date "2014-03-01" @default.
W2001231850 modified "2023-10-01" @default.
W2001231850 title "Facultative hyperaccumulation of heavy metals and metalloids" @default.
W2001231850 cites W1221957304 @default.
W2001231850 cites W1487808428 @default.
W2001231850 cites W1500381518 @default.
W2001231850 cites W1607581884 @default.
W2001231850 cites W1965035100 @default.
W2001231850 cites W1965621340 @default.
W2001231850 cites W1969178616 @default.
W2001231850 cites W1972016781 @default.
W2001231850 cites W1992885134 @default.
W2001231850 cites W1993036604 @default.
W2001231850 cites W1994793635 @default.
W2001231850 cites W1995178492 @default.
W2001231850 cites W1998028416 @default.
W2001231850 cites W1998772672 @default.
W2001231850 cites W1999677303 @default.
W2001231850 cites W2000373571 @default.
W2001231850 cites W2001241567 @default.
W2001231850 cites W2003002334 @default.
W2001231850 cites W2005553705 @default.
W2001231850 cites W2009049195 @default.
W2001231850 cites W2010912917 @default.
W2001231850 cites W2013874115 @default.
W2001231850 cites W2014624866 @default.
W2001231850 cites W2014769903 @default.
W2001231850 cites W2022992970 @default.
W2001231850 cites W2027641205 @default.
W2001231850 cites W2028735706 @default.
W2001231850 cites W2028833935 @default.
W2001231850 cites W2033951690 @default.
W2001231850 cites W2034211664 @default.
W2001231850 cites W2042352928 @default.
W2001231850 cites W2044351358 @default.
W2001231850 cites W2044376074 @default.
W2001231850 cites W2054239854 @default.
W2001231850 cites W2056148972 @default.
W2001231850 cites W2066651579 @default.
W2001231850 cites W2071758520 @default.
W2001231850 cites W2074401106 @default.
W2001231850 cites W2075143978 @default.
W2001231850 cites W2077768393 @default.
W2001231850 cites W2081058610 @default.
W2001231850 cites W2083390619 @default.
W2001231850 cites W2088872392 @default.
W2001231850 cites W2089872245 @default.
W2001231850 cites W2090454765 @default.
W2001231850 cites W2092225215 @default.
W2001231850 cites W2092314859 @default.
W2001231850 cites W2093631885 @default.
W2001231850 cites W2098743831 @default.
W2001231850 cites W2100481247 @default.
W2001231850 cites W2101448961 @default.
W2001231850 cites W2102891009 @default.
W2001231850 cites W2104979391 @default.
W2001231850 cites W2105813518 @default.
W2001231850 cites W2107950212 @default.
W2001231850 cites W2109476428 @default.
W2001231850 cites W2109913261 @default.
W2001231850 cites W2110029373 @default.
W2001231850 cites W2110719657 @default.
W2001231850 cites W2110972650 @default.
W2001231850 cites W2112486632 @default.
W2001231850 cites W2117685523 @default.
W2001231850 cites W2120331543 @default.
W2001231850 cites W2121914152 @default.
W2001231850 cites W2124480377 @default.
W2001231850 cites W2126341242 @default.
W2001231850 cites W2126546698 @default.
W2001231850 cites W2129416513 @default.
W2001231850 cites W2143317387 @default.
W2001231850 cites W2149835853 @default.
W2001231850 cites W2153023628 @default.
W2001231850 cites W2153441863 @default.
W2001231850 cites W2154704689 @default.
W2001231850 cites W2155944065 @default.
W2001231850 cites W2156215181 @default.
W2001231850 cites W2157229195 @default.
W2001231850 cites W2161166205 @default.
W2001231850 cites W2164909466 @default.
W2001231850 cites W2168745285 @default.
W2001231850 cites W2178680951 @default.
W2001231850 cites W2321712067 @default.
W2001231850 cites W2329141487 @default.
W2001231850 cites W2334908775 @default.
W2001231850 cites W2335161664 @default.
W2001231850 cites W3088799574 @default.
W2001231850 cites W4250535136 @default.
W2001231850 cites W812875783 @default.
W2001231850 doi "https://doi.org/10.1016/j.plantsci.2013.11.011" @default.
W2001231850 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/24467891" @default.
W2001231850 hasPublicationYear "2014" @default.