2021
DOI: 10.1016/j.agee.2021.107347
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Effects of long-term CO2 enrichment on forage quality of extensively managed temperate grassland

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Cited by 9 publications
(5 citation statements)
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“…Future reductions in the forage quality of sourveld and sweetveld will depend on how other major climate change drivers (temperature and precipitation) interact with the carbon fertilisation effect (CFE) to alter the balance between plant growth-driven demand for, and soil supply of, nutrients, primarily N. 6,7,12 The CFE would be most pronounced when resources and environmental conditions do not restrict plant growth. 19 However, the effects of multi-way interactions between climate drivers on plants and soils, particularly on forage quality, are poorly understood; these interactions can be complex, multiplicative 20,21 , and speciesspecific 22 . Given these uncertainties and the current growth limitations prevailing in sour-and sweetveld 11,12 , we tentatively predict the following potential shifts in plant quality (leaf [N], digestibility, and fibre content) under climate change.…”
Section: Discussionmentioning
confidence: 99%
See 1 more Smart Citation
“…Future reductions in the forage quality of sourveld and sweetveld will depend on how other major climate change drivers (temperature and precipitation) interact with the carbon fertilisation effect (CFE) to alter the balance between plant growth-driven demand for, and soil supply of, nutrients, primarily N. 6,7,12 The CFE would be most pronounced when resources and environmental conditions do not restrict plant growth. 19 However, the effects of multi-way interactions between climate drivers on plants and soils, particularly on forage quality, are poorly understood; these interactions can be complex, multiplicative 20,21 , and speciesspecific 22 . Given these uncertainties and the current growth limitations prevailing in sour-and sweetveld 11,12 , we tentatively predict the following potential shifts in plant quality (leaf [N], digestibility, and fibre content) under climate change.…”
Section: Discussionmentioning
confidence: 99%
“…Elevated temperatures combined with the CFE could stimulate grass production, lowering the N content and digestibility of herbage. 8 However, extreme and prolonged droughts and heat waves, both of which will become more frequent with climate change 5,16 , will limit carbon assimilation and nutrient availability by curtailing microbial decomposition and nutrient cycling 19,20 . The consequences of climate change in semi-arid regions are still uncertain 21 but it is not likely that sweetveld will experience a consistent large directional change in productivity and forage quality in the future.…”
Section: Discussionmentioning
confidence: 99%
“…Future reductions in the forage quality of sourveld and sweetveld will depend on how other major climate change drivers (temperature and precipitation) interact with the carbon fertilisation effect (CFE) to alter the balance between plant growth-driven demand for, and soil supply of, nutrients, primarily N. 6,7,12 The CFE would be most pronounced when resources and environmental conditions do not restrict plant growth. 19 However, the effects of multi-way interactions between climate drivers on plants and soils, particular on forage quality, are poorly understood; these interactions can be complex, multiplicative 20,21 , and species-specific 22 . Given these uncertainties and the current growth limitations prevailing in sour- and sweetveld 11,12 , we tentatively predict the following potential shifts in plant quality (leaf [N], digestibility, and fibre content) under climate change.…”
Section: Discussionmentioning
confidence: 99%
“…Elevated temperatures combined with the CFE could stimulate grass production, lowering the N content and digestibility of herbage. 8 However, extreme and prolonged droughts and heat waves, both of which will become more frequent with climate change 5,16 , will limit carbon assimilation and nutrient availability by curtailing microbial decomposition and nutrient cycling 19,20 . The consequences of climate change in semi-arid regions are still uncertain 21 but it is not likely that sweetveld will experience a consistent large directional change in productivity and forage quality in the future.…”
Section: Discussionmentioning
confidence: 99%
“…Declining grain protein under CO 2 enrichment does not simply derive from dilution of organic nitrogen by additional biomass: in non-leguminous C 3 plants, CO 2 enrichment decreased nitrogen concentration about twice as much as the concentrations of other elements and almost three times more than the increase in carbon (Gifford et al, 2000; Loladze, 2014; Myers et al, 2014; Seibert et al, 2021; Taub et al, 2008; Uddling et al, 2018). Plants in which CO 2 enrichment did not stimulate growth still had lower nitrogen concentrations (Broberg et al, 2017; Feng et al, 2015; Wujeska-Klause et al, 2019).…”
Section: Introductionmentioning
confidence: 98%