Nickel (Ni)‐tolerant ectomycorrhizal P isolithus albus was isolated from extreme ultramafic
soils that are naturally rich in heavy metals. This study aimed to identify the specific …

Abstract Ectomycorrhizal (ECM) Pisolithus albus (Cooke & Massee), belonging to the
ultramafic ecotype isolated in nickel-rich serpentine soils from New Caledonia (a tropical …

In this study we determine culturable microbial densities (total heterotrophs, ammonifiers,
amylolytics and cellulolytics) and bacterial resistance to Co, Cr, and Ni in bulk and …

Anthyllis vulneraria is a legume associated with nitrogen-fixing rhizobia that together offer an
adapted biological material for mine-soil phytostabilization by limiting metal pollution. To find …

An ectomycorrhizal fungus Pisolithus albus establishes the natural symbiosis with plant
roots on extreme heavy metal (HM)–rich soil and enables their survival in toxic metal …

Selection for metal-tolerant ecotypes of ectomycorrhizal (ECM) fungi has been reported in
instances of metal contamination of soils as a result of human activities. However, no study …

The fungus Pisolithus albus forms ectomycorrhizal (ECM) associations with plants growing
on extreme ultramafic soils, which are naturally rich in heavy metals such as nickel. Both …

Acidiphilium spp. are conspicuous dwellers of acidic, metal-rich environments. Indeed, they
are among the most metal-resistant organisms; yet little is known about the mechanisms …

The ncc-nre nickel resistance system of Ralstonia metallidurans 31A was efficiently
expressed in Burkholderia cepacia LS 2.4 and Herbaspirillum seropedicae LMG2284. The …

Mycorrhizal fungi are key microorganisms for enhancing phytoremediation of soils
contaminated with heavy metals. In this study, the effects of the arbuscular mycorrhizal …