Changes in ecological stoichiometry and nutrient resorption in Castanopsis hystrix plantations along an urbanization gradient in the lower subtropics

Nutrient resorption is an important strategy for nutrient conservation, particularly under conditions of nutrient limitation. However, changes in nutrient resorption efficiency with stand development and the associated correlations with ecological stoichiometry and homeostasis are poorly understood. In the study, the authors measured carbon (C), nitrogen (N), and phosphorus (P) concentrations in soil and in green and senesced needles along a chronosequence of Mongolian pine (Pinus sylvestris var. mongolica) plantations (12-, 22-, 31-, 42-, 52-, and 59-year-old) in Horqin Sandy Land of China, calculated N and P resorption efficiency (NRE and PRE, respectively), and homeostasis coefficient. The authors found that soil organic C and total N concentrations increased, but soil total P and available P concentrations decreased with stand age. Green needle N concentrations and N:P ratios as well as senesced needle C:N ratios, NRE, and PRE exhibited patterns of initial increase and subsequent decline with stand age, whereas green needle C:N ratios and senesced needle N concentrations, and N:P ratios exhibited the opposite pattern. NRE was positively correlated with N concentration and N:P ratio, but negatively correlated with C:N ratio in green needles, whereas the opposite pattern was observed in senesced needles. PRE was negatively correlated with senesced needle P concentration, soil-available N concentration, and available N:P ratio. The homeostatic coefficient of N:P was greater when including all stand ages than when including only those younger than 42 years. These findings indicate that tree growth may change from tending to be N limited to tending to be P limited along the Mongolian pine plantation chronosequence. Nutrient resorption was coupled strongly to tree growth and development, whereas it played a lesser role in maintaining stoichiometric homeostasis across the plantation chronosequence. Therefore, adaptive fertilization management strategies should be applied for the sustainable development of Mongolian pine plantations.

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Relationships between species diversity and C, N and P ecological stoichiometry in plant communities of sub-alpine meadow

Chinese Journal of Plant Ecology ◽

10.3724/sp.j.1258.2013.00101 ◽

2014 ◽

Vol 37 (11) ◽

pp. 979-987 ◽

Cited By ~ 2

Author(s):

Jun-Qiang CHEN ◽

Rui ZHANG ◽

Yao-Chen HOU ◽

Li-Na MA ◽

Lu-Ming DING ◽

...

Keyword(s):

Species Diversity ◽

Plant Communities ◽

Ecological Stoichiometry ◽

Alpine Meadow

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Potential local adaptation in populations of invasive reed canary grass ( Phalaris arundinacea ) across an urbanization gradient

Ecology and Evolution ◽

10.1002/ece3.7938 ◽

2021 ◽

Author(s):

Leah M. Weston ◽

Kali Z. Mattingly ◽

Charles T. C. Day ◽

Stephen M. Hovick

Keyword(s):

Local Adaptation ◽

Phalaris Arundinacea ◽

Reed Canary Grass ◽

Urbanization Gradient ◽

Canary Grass

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Response of root nutrient resorption strategies to rhizosphere soil microbial nutrient utilization along Robinia pseudoacacia plantation chronosequence

Forest Ecology and Management ◽

10.1016/j.foreco.2021.119053 ◽

2021 ◽

Vol 489 ◽

pp. 119053

Author(s):

Miaoping Xu ◽

Junnan Jian ◽

Jiayi Wang ◽

Zhenjiao Zhang ◽

Gaihe Yang ◽

...

Keyword(s):

Rhizosphere Soil ◽

Robinia Pseudoacacia ◽

Nutrient Utilization ◽

Nutrient Resorption ◽

Soil Microbial

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Nutrient resorption and stoichiometric responses of poplar (Populus deltoids) plantations to N addition in a coastal region of eastern China

Journal of Plant Ecology ◽

10.1093/jpe/rtab015 ◽

2021 ◽

Author(s):

Dalong Jiang ◽

Qian Li ◽

Qinghong Geng ◽

Menghua Zhang ◽

Chonghua Xu ◽

...

Keyword(s):

Eastern China ◽

Coastal Region ◽

Nutrient Resorption ◽

Green Leaf ◽

Nutrient Concentrations ◽

N Addition ◽

Resorption Efficiency ◽

Nutrient Resorption Efficiency ◽

Poplar Plantations ◽

Populus Deltoids

Abstract Aims Leaf nutrient resorption is sensitive to changes in soil nutrients. However, the effects of N deposition on nutrient resorption efficiency (NuRE) in plant macro-nutrients remain unclear. Poplar (Populus deltoids) is one of the most extensively cultivated hardwood species worldwide. We explored general patterns and dominant drivers of NuRE and stoichiometry of poplar plantations in response to N addition. Methods We conducted a 4-year N-addition experiment to explore NuRE and stoichiometric responses to N addition in two poplar (Populus deltoids) plantations (8- and 12-year-old stands) in a coastal region of eastern China. We measured soil and foliar (green and senesced leaves) concentrations of nitrogen (N), phosphorus (P), potassium (K), calcium (Ca), and magnesium (Mg) for a series of N addition treatments including N0 (0 kg N ha ‒1 yr ‒1), N1 (50 kg N ha ‒1 yr ‒1), N2 (100 kg N ha ‒1 yr ‒1), N3 (150 kg N ha ‒1 yr ‒1), and N4 (300 kg N ha ‒1 yr ‒1). Important Findings Consistent for (both) 8- and 12-year-old stands, N addition did not affect the NuRE and stoichiometry (with the exception of CaRE and CaRE:MgRE ratio). NRE-PRE scaling slopes were consistently less than 1.0 under N addition. These results suggest that NRE generally decouples from PRE within each N treatment. Moreover, these results point to robust control of green leaf nutritional status on nutrient resorption processes as indicated by the positive relationships between nutrient resorption efficiency and green leaf nutrient concentrations. Our findings provided a direct evidence that growth in 12-year-old poplar plantations was N-limited in a coastal region of eastern China.

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Effects of defoliation timing on plant nutrient resorption and hay production in a semi-arid steppe

Journal of Plant Ecology ◽

10.1093/jpe/rtaa076 ◽

2020 ◽

Author(s):

Tongrui Zhang ◽

Frank Yonghong Li ◽

Hao Wang ◽

Lin Wu ◽

Chunjun Shi ◽

...

Keyword(s):

Nutrient Cycling ◽

Nutrient Resorption ◽

Plant Production ◽

Conservation Strategy ◽

Plant Nutrient ◽

Resorption Efficiency ◽

Nutrient Return ◽

Peak Biomass ◽

Arid Steppe ◽

Semi Arid

Abstract Aims Nutrient resorption is a key plant nutrient conservation strategy, and its response to environmental and management changes is linked to nutrient cycling and production of ecosystems. Defoliation is a major pathway of mowing affecting plant nutrient resorption and production in grasslands, while the effect of defoliation timing has not been unexplored. The aim of this study was to examine the effect of defoliation timing on plant nutrient resorption and production in a steppe ecosystem. Methods We conducted a field experiment in a semi-arid steppe of Inner Mongolia including four treatments: early defoliation, peak defoliation, late defoliation and non-defoliation. We measured plant nitrogen (N) and phosphorus (P) resorption at species and community levels, and quantified plant N and P fluxes in resorption, litter return and hay output. Plant production in the mowing system was assessed by hay production and quality. Important Findings Peak and late defoliation, but not early defoliation, reduced plant community N and P resorption proficiency (RP); and late defoliation reduced N resorption efficiency (RE) but not P resorption efficiency. Peak and late defoliation, but not early defoliation, reduced plant nutrient resorption flux and litter nutrient return flux. Defoliation timing did not alter root nutrient accumulation as nutrient uptake from soil likely compensated the deficit of nutrient resorption. Peak defoliation had the highest hay production and quality, while early defoliation had the lowest. Our results provide new insights into the nutrient cycling in mowing grassland, and imply that the mowing timing can be used as a tool to mediate the balance between conservation and production of steppes, and the early mowing before plant peak biomass period is recommended for conservation of the steppes while keeping sustainable pastoral production.

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