Abstract
Rhododendrons (Rhododendron spp.) are ornamental plants in the family Ericaceae that thrive in acidic soils and are challenged by neutral or alkaline soils. This soil requirement limits the locations where rhododendrons can be grown and causes chlorosis, diminished growth, and low survival when rhododendrons are grown in high pH soils. While growth and survival impacts are widely documented, little is known about how high pH soils cause these symptoms in rhododendrons. We hypothesized that high pH stress impacts root form and function, leading to nutrient deficiencies that limit plant growth. We tested this hypothesis in a hydroponic experiment. “Mardi Gras” rhododendron liners were grown in a complete nutrient solution at pH 5.5 (optimum pH) or pH 6.5 (high pH) for 49 days. Biomass accumulation, nutrient uptake and concentration, and root stress were assessed. High pH nutrient solutions diminished leaf and root growth. Plants grown in high pH nutrient solutions developed clusters of short, highly branched roots. Plants grown in optimum pH did not exhibit this morphology. High pH affected the uptake and translocation of most essential nutrients. S and Mn deficiencies likely limited plant growth. High pH had a nuanced effect on root oxidative status. These results suggest that rhododendron root morphology and nutrient uptake are directly affected by high pH and that aboveground symptoms might be a consequence of impaired root function.
Highlights
Rhododendrons (Rhododendron spp.) are ornamental plants in the family Ericaceae
While the negative effects of growth in high pH soils are widely documented in rhododendron and other calcifuge plants, very little is known about the mechanism that causes these symptoms
Our results suggest that root morphology and function might be the limiting factors
Summary
Rhododendrons (Rhododendron spp.) are ornamental plants in the family Ericaceae. While some taxa exhibit wide pH tolerance [1], most rhododendrons thrive in acidic soils (pH 5.0 to pH 6.0) and are challenged by neutral or alkaline soils [2]. Acidic soils are uncommon in gardens and landscapes, which limits the locations where rhododendrons can be planted [3]. Cultivation in high pH soils elicits several responses in rhododendron and other calcifuge plants. Chlorosis has been previously used as a tool to assess plant stress and select genotypes with high pH tolerance [3,4,5]. Research with other calcifuge plants suggests other nutrients might be involved. In blueberry (Vaccinium spp. section cyanococcus), chlorosis has been observed in plants grown in high pH soils, even though leaf Fe concentrations were not affected [6,7]. In cranberry (Vaccinium macrocarpon), shoot Fe, Mn, and Zn were lower in response to high pH nutrient solutions [8]
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