Nitrogen addition improves drought tolerance in Camellia japonica (Naidong) seedlings

•Drought limited seedling growth and biomass accumulation.•Severe drought decreased carbon allocation to root storage.•The effect of nitrogen addition on seedling growth had a threshold of 6 g N m−2 year−1.•Moderate nitrogen addition increases the ability of Naidong seedlings to resist the risk of d...

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Published in:Flora. Morphologie, Geobotanik, Oekophysiologie Geobotanik, Oekophysiologie, 2023-10, Vol.307, p.152368, Article 152368
Main Authors: Liu, Cuiju, Xie, Jinlong, Li, Mingyan, Sun, Yingkun, Jiang, Xiaolei, Li, Yuwu, Jiao, Jibo, Wang, Kuiling, Liu, Qinghua, Guo, Xiao
Format: Article
Language:English
Subjects:
Biomass
biomass production
Camellia japonica
Carbon allocation
carbon dioxide fixation
Chlorophyll fluorescence
climate
drought
drought tolerance
ecotypes
flora
Gas exchange
global change
greenhouse experimentation
leaf morphology
nitrogen
Non-structural carbohydrates
Photosynthesis
plant growth
primary productivity
seedlings
species
Specific leaf area
starch
water use efficiency
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Summary:•Drought limited seedling growth and biomass accumulation.•Severe drought decreased carbon allocation to root storage.•The effect of nitrogen addition on seedling growth had a threshold of 6 g N m−2 year−1.•Moderate nitrogen addition increases the ability of Naidong seedlings to resist the risk of drought. The northernmost population of Camellia japonica globally is a unique ecotype within the species. Water deficit and atmospheric nitrogen deposition are two critical environmental factors that influence plant growth and primary productivity, particularly in the context of environmental change. However, the interactive effects of drought and nitrogen deposition on the physiology and growth of Naidong seedlings have not been investigated. To address this gap, we conducted a greenhouse experiment to investigate the individual and combined influences of different water and nitrogen (N) levels on growth, leaf morphology and physiology, and biomass and carbohydrate allocation of three-year-old Naidong seedlings. The results demonstrated that drought reduced height, basal diameter, specific leaf area, biomass accumulation, net photosynthesis, and non-structural carbohydrate (NSC) pool in the root of seedlings. However, water use efficiency (WUE) increased under slight drought conditions. Moderate (6 g N m−2 year−1) nitrogen addition enhanced seedling biomass accumulation, carbon fixation capacity, and WUE. Furthermore, a significant interaction between water and nitrogen deposition on Fv/Fm, soluble sugars concentration in the stem, and starch concentration in the root of Naidong seedlings was discovered. Drought and nitrogen deposition exhibited antagonistic effects on seedling biomass accumulation and photosynthetic capacity. The adverse impact of drought on growth and physiological responses could be partially compensated by increased nitrogen availability. This study highlights the need to include more variables when assessing a species' vulnerability to shifts in environmental conditions in the context of global change studies. Furthermore, our findings provide supportive data for the survival of C. japonica under future climate scenarios. [Display omitted]
ISSN:0367-2530
1618-0585
DOI:10.1016/j.flora.2023.152368