Effects of Soil Salinity on Growth, Ion Relations, and Compatible Solute Accumulation of Two Sumac Species: Rhus glabra and Rhus trilobata

The effects of soil salinity on growth, photosynthetic pigments, ion relations, and compatible solute accumulation of two sumac seedlings (Rhus glabra and Rhus trilobata) treated with five salinity levels in a completely randomized block design with four replications were studied. Both species were...

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Bibliographic Details
Published in:Communications in Soil Science and Plant Analysis 2013-11, Vol.44 (21), p.3187-3204
Main Authors: Liu, Zhengxiang, Zhang, Huaxin, Yang, Xiuyan, Wei, Hairong
Format: Article
Language:English
Subjects:
Agronomy. Soil science and plant productions
Biological and medical sciences
biomass
Fundamental and applied biological sciences. Psychology
Growth
homeostasis
ion relations
leaves
osmoregulation
osmotic regulation
pigments
potassium
proline
Rhus glabra
Rhus trilobata
roots
Salinity
Salt
salt tolerance
seedlings
shoots
sodium
soil salinity
Soil science
Soil sciences
solutes
stems
sumac
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Summary:The effects of soil salinity on growth, photosynthetic pigments, ion relations, and compatible solute accumulation of two sumac seedlings (Rhus glabra and Rhus trilobata) treated with five salinity levels in a completely randomized block design with four replications were studied. Both species were inhibited by soil salinity, but salt-damaged symptoms appeared much earlier and more severely in R. glabra , and relative height growth rates (RGR H) and photosynthetic pigment contents were much higher on average in R. trilobata . The biomass increment, root/shoot ratio, and relative shoot dry weight (DW) were significantly affected only in R. glabra. Rhus trilobata showed stable potassium (K ⁺) concentration and low sodium (Na ⁺) accumulation in roots, stems, and leaves, and a proline concentration 10 times greater than that of R. glabra . Overall, our findings suggest that R. trilobata is more salt-tolerant than R. glabra , which is presumably rooted in its better performance in ionic homeostasis and osmotic regulation.
ISSN:1532-2416
0010-3624
1532-2416
1532-4133
DOI:10.1080/00103624.2013.832289