posted on 2015-09-01, 00:00authored byThangasamy Saminathan, Sridhar A. Malkaram, Dharmesh Patel, Kaitlyn Taylor, Amir Hass, Padma Nimmakayala, David H. Huber, Umesh K. Reddy
Efficient postmining
reclamation requires successful revegetation.
By using RNA sequencing, we evaluated the growth response of two invasive
plants, goutweed (Aegopodium podagraria L.) and mugwort
(Artemisia vulgaris), grown in two Appalachian acid-mine
soils (MS-I and -II, pH ∼ 4.6). Although deficient in macronutrients,
both soils contained high levels of plant-available Al, Fe and Mn.
Both plant types showed toxicity tolerance, but metal accumulation
differed by plant and site. With MS-I, Al accumulation was greater
for mugwort than goutweed (385 ± 47 vs 2151 ± 251 μg
g-1). Al concentration was similar between mine sites, but its accumulation
in mugwort was greater with MS-I than MS-II, with no difference in
accumulation by site for goutweed. An in situ approach
revealed deregulation of multiple factors such as transporters, transcription
factors, and metal chelators for metal uptake or exclusion. The two
plant systems showed common gene expression patterns for different
pathways. Both plant systems appeared to have few common heavy-metal
pathway regulators addressing mineral toxicity/deficiency in both
mine sites, which implies adaptability of invasive plants for efficient
growth at mine sites with toxic waste. Functional genomics can be
used to screen for plant adaptability, especially for reclamation
and phytoremediation of contaminated soils and waters.