Scott N Johnson
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Explore the profile of Scott N Johnson including associated specialties, affiliations and a list of published articles.
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69
Citations
647
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Recent Articles
1.
Johnson S, Waterman J, Hartley S, Cooke J, Ryalls J, Lagisz M, et al.
Ecol Lett
. 2024 Oct;
27(10):e14519.
PMID: 39400424
The performance of herbivorous animals depends on the nutritional and defensive traits of the plants they consume. The uptake and deposition of biogenic silicon in plant tissues is arguably the...
2.
Biru F, Cazzonelli C, Elbaum R, Johnson S
Front Plant Sci
. 2023 Nov;
14:1268043.
PMID: 38023935
The uptake and accumulation of silicon (Si) in grass plants play a crucial role in alleviating both biotic and abiotic stresses. Si supplementation has been reported to increase activity of...
3.
Climatic Drivers of Silicon Accumulation in a Model Grass Operate in Low- but Not High-Silicon Soils
Johnson S, Vandegeer R, Borevitz J, Hartley S, Tissue D, Hall C
Plants (Basel)
. 2023 Mar;
12(5).
PMID: 36903856
Grasses are hyper-accumulators of silicon (Si), which is known to alleviate diverse environmental stresses, prompting speculation that Si accumulation evolved in response to unfavourable climatic conditions, including seasonally arid environments....
4.
Johnson S, Chen Z, Rowe R, Tissue D
Front Plant Sci
. 2022 Nov;
13:1030620.
PMID: 36438110
Detrimental impacts of drought on crop yield have tripled in the last 50 years with climate models predicting that the frequency of such droughts will intensify in the future. Silicon...
5.
de Tombeur F, Raven J, Toussaint A, Lambers H, Cooke J, Hartley S, et al.
Trends Ecol Evol
. 2022 Nov;
38(3):275-288.
PMID: 36428125
Despite seminal papers that stress the significance of silicon (Si) in plant biology and ecology, most studies focus on manipulations of Si supply and mitigation of stresses. The ecological significance...
6.
Johnson S, Cibils-Stewart X, Waterman J, Biru F, Rowe R, Hartley S
Proc Biol Sci
. 2022 Feb;
289(1969):20212536.
PMID: 35168395
Predicting how plants allocate to different anti-herbivore defences in response to elevated carbon dioxide (CO) concentrations is important for understanding future patterns of crop susceptibility to herbivory. Theories of defence...
7.
Frew A, Antunes P, Cameron D, Hartley S, Johnson S, Rillig M, et al.
New Phytol
. 2021 Oct;
233(3):1022-1031.
PMID: 34618922
No abstract available.
8.
Barnett K, Johnson S, Facey S, Gibson-Forty E, Ochoa-Hueso R, Power S
BMC Ecol Evol
. 2021 Jul;
21(1):145.
PMID: 34266378
Background: Climate change models predict changes in the amount, frequency and seasonality of precipitation events, all of which have the potential to affect the structure and function of grassland ecosystems....
9.
Waterman J, Cibils-Stewart X, Cazzonelli C, Hartley S, Johnson S
Ecology
. 2021 Jun;
102(9):e03438.
PMID: 34139023
Silicon (Si) can adversely affect insect herbivores, particularly in plants that evolved the ability to accumulate large quantities of Si. Very rapid herbivore-induced accumulation of Si has recently been demonstrated,...
10.
Hall C, Rowe R, Mikhael M, Read E, Hartley S, Johnson S
Oecologia
. 2021 Apr;
196(1):145-154.
PMID: 33929604
Grasses accumulate large amounts of silicon (Si) which acts as a highly effective physical defence against insect herbivory, however recent evidence shows that Si supplementation also modifies plant secondary metabolite...