Response of Litter Decomposition to Simulated N Deposition in Disturbed, Rehabilitated and Mature Forests in Subtropical China

We conducted a field experiment with four levels of simulated nitrogen (N) deposition (0, 2.5, 5, and 7.5 g N m−2 yr−1, respectively) to investigate the response of litter decomposition of Pinus koraiensis (PK), Tilia amurensis (TA), and their mixture to N deposition during winter and growing seasons. Results showed that N addition significantly increased the mass loss of PK litter and significantly decreased the mass loss of TA litter throughout the 2 yr decomposition processes, which indicated that the different responses in the decomposition of different litters to N addition can be species specific, potentially attributed to different litter chemistry. The faster decomposition of PK litter with N addition occurred mainly in the winter, whereas the slower decomposition of TA litter with N addition occurred during the growing season. Moreover, N addition had a positive effect on the release of phosphorus, magnesium, and manganese for PK litter and had a negative effect on the release of carbon, iron, and lignin for TA litter. Decomposition and nutrient release from mixed litter with N addition showed a non-additive effect. The mass loss from litter in the first winter and over the entire study correlated positively with the initial concentration of cellulose, lignin, and certain nutrients in the litter, demonstrating the potential influence of different tissue chemistries.

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Effects of reduced N deposition on litter decomposition and N cycling in two N saturated forests in The Netherlands

Soil Biology and Biochemistry ◽

10.1016/s0038-0717(97)00116-8 ◽

1998 ◽

Vol 30 (2) ◽

pp. 141-151 ◽

Cited By ~ 17

Author(s):

C.J. Koopmans ◽

A. Tietema ◽

J.M. Verstraten

Keyword(s):

The Netherlands ◽

Litter Decomposition ◽

N Deposition ◽

N Cycling ◽

Reduced N Deposition

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Short-Term Nitrogen Addition Does Not Significantly Alter the Effects of Seasonal Drought on Leaf Functional Traits in Machilus pauhoi Kanehira Seedlings

Forests ◽

10.3390/f10020078 ◽

2019 ◽

Vol 10 (2) ◽

pp. 78 ◽

Cited By ~ 1

Author(s):

Hua Yu ◽

Dongliang Cheng ◽

Baoyin Li ◽

Chaobin Xu ◽

Zhongrui Zhang ◽

...

Keyword(s):

Functional Traits ◽

C:N Ratio ◽

Leaf Traits ◽

N Deposition ◽

Interactive Effects ◽

N Addition ◽

Subtropical China ◽

Short Term ◽

Leaf Functional Traits ◽

Seasonal Drought

Research Highlights: Short-term nitrogen (N) addition did not significantly alter the effects of seasonal drought on the leaf functional traits in Machilus pauhoi Kanehira seedlings in N-rich subtropical China. Background and Objectives: Seasonal drought and N deposition are major drivers of global environmental change that affect plant growth and ecosystem function in subtropical China. However, no consensus has been reached on the interactive effects of these two drivers. Materials and Methods: We conducted a full-factorial experiment to analyze the single and combined effects of seasonal drought and short-term N addition on chemical, morphological and physiological traits of M. pauhoi seedlings. Results: Seasonal drought (40% of soil field capacity) had significant negative effects on the leaf N concentrations (LNC), phosphorus (P) concentrations (LPC), leaf thickness (LT), net photosynthetic rate (A), transpiration rate (E), stomatal conductance (Gs), and predawn leaf water potential (ψPD), and significant positive effects on the carbon:N (C:N) ratio and specific leaf area (SLA). Short-term N addition (50 kg N·hm−2·year−1 and 100 kg N·hm−2·year−1) tended to decrease the C:N ratio and enhance leaf nutrient, growth, and photosynthetic performance because of increased LNC, LPC, LT, leaf area (LA), SLA, A, E, and ψPD; however, it only had significant effects on LT and Gs. No significant interactive effects on leaf traits were detected. Seasonal drought, short-term N addition, and their interactions had significant effects on soil properties. The soil total C (STC), nitrate N (NO3−-N) and soil total N (STN) concentrations were the main factors that affected the leaf traits. Conclusions: Seasonal drought had a stronger effect on M. pauhoi seedling leaf traits than short-term N deposition, indicating that the interaction between seasonal drought and short-term N deposition may have an additive effecton M. pauhoi seedling growth in N-rich subtropical China.

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Combination of nitrogen deposition and ultraviolet-B radiation decreased litter decomposition in subtropical China

Plant and Soil ◽

10.1007/s11104-014-2092-y ◽

2014 ◽

Vol 380 (1-2) ◽

pp. 349-359 ◽

Cited By ~ 6

Author(s):

Xinzhang Song ◽

Huiling Zhang ◽

Hong Jiang ◽

Changhui Peng

Keyword(s):

Nitrogen Deposition ◽

Litter Decomposition ◽

Ultraviolet B ◽

Subtropical China ◽

Ultraviolet B Radiation

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Effects of N Deposition Induced by Environmental Pollution on Litter Decomposition Rate of Cortex phellodendri chinensis in Shenyang City

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.518-523.1913 ◽

2012 ◽

Vol 518-523 ◽

pp. 1913-1917

Author(s):

Fang Qin Guo ◽

Wei Chen

Keyword(s):

Environmental Pollution ◽

Mass Loss ◽

Litter Decomposition ◽

Environmental Conditions ◽

Decomposition Rate ◽

Litter Quality ◽

N Deposition ◽

Shenyang City ◽

Litter Decomposition Rate ◽

Cortex Phellodendri

The effects of N deposition induced by environmental pollution on litter decomposition rate in Shenyang city are analyzed by the reciprocal transplant experiment. By contrasting environments and intraspecific variations in Cortex Phellodendri Chinensis leaf litter quality on mass loss rates to investigate the effects of N deposition on mass loss rates in urban and suburb. The results showed that N deposition in urban significantly affected litter decomposition rate by affecting litter quality and environmental conditions. There was a faster decomposition rate when the environmental conditions or litter quality was affected by N deposition.

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SOIL N2O EMISSION AND ITS RESPONSE TO SIMULATED N DEPOSITION IN THE MAIN FORESTS OF DINGHUSHAN IN SUBTROPICAL CHINA

Chinese Journal of Plant Ecology ◽

10.17521/cjpe.2006.0114 ◽

2006 ◽

Vol 30 (6) ◽

pp. 901-910 ◽

Cited By ~ 4

Author(s):

MO Jiang-Ming ◽

◽

FANG Yun-Ting ◽

LIN Er-Da ◽

LI Yu-E

Keyword(s):

N2o Emission ◽

N Deposition ◽

Subtropical China

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Response of litter decomposition and the soil environment to one-year nitrogen addition in a Schrenk spruce forest in the Tianshan Mountains, China

Scientific Reports ◽

10.1038/s41598-021-04623-8 ◽

2022 ◽

Vol 12 (1) ◽

Author(s):

Zhaolong Ding ◽

Xu Liu ◽

Lu Gong ◽

Xin Chen ◽

Jingjing Zhao ◽

...

Keyword(s):

Nitrogen Deposition ◽

Litter Decomposition ◽

Forest Ecosystems ◽

N Deposition ◽

Tianshan Mountains ◽

Control Treatment ◽

N Addition ◽

Soil Environment ◽

N Application ◽

Positive Effect

AbstractHuman activities have increased the input of nitrogen (N) to forest ecosystems and have greatly affected litter decomposition and the soil environment. But differences in forests with different nitrogen deposition backgrounds. To better understand the response of litter decomposition and soil environment of N-limited forest to nitrogen deposition. We established an in situ experiment to simulate the effects of N deposition on soil and litter ecosystem processes in a Picea schrenkiana forest in the Tianshan Mountains, China. This study included four N treatments: control (no N addition), low N addition (LN: 5 kg N ha−1 a−1), medium N addition (MN: 10 kg N ha−1 a−1) and high N addition (HN: 20 kg N ha−1 a−1). Our results showed that N addition had a significant effect on litter decomposition and the soil environment. Litter mass loss in the LN treatment and in the MN treatment was significantly higher than that in the control treatment. In contrast, the amount of litter lost in the HN treatment was significantly lower than the other treatments. N application inhibited the degradation of lignin but promoted the breakdown of cellulose. The carbon (C), N, and phosphorus (P) contents of litter did not differ significantly among the treatments, but LN promoted the release of C and P. Our results also showed that soil pH decreased with increasing nitrogen application rates, while soil enzyme activity showed the opposite trend. In addition, the results of redundancy analysis (RDA) and correlation analyses showed that the soil environment was closely related to litter decomposition. Soil enzymes had a positive effect on litter decomposition rates, and N addition amplified these correlations. Our study confirmed that N application had effects on litter decomposition and the soil environment in a N-limited P. schrenkiana forest. LN had a strong positive effect on litter decomposition and the soil environment, while HN was significantly negative. Therefore, increased N deposition may have a negative effect on material cycling of similar forest ecosystems in the near future.

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Management practices amplify the effects of N deposition on leaf litter decomposition of the Moso bamboo forest

Plant and Soil ◽

10.1007/s11104-015-2578-2 ◽

2015 ◽

Vol 395 (1-2) ◽

pp. 391-400 ◽

Cited By ~ 25

Author(s):

Xinzhang Song ◽

Guomo Zhou ◽

Honghao Gu ◽

Lianghua Qi

Keyword(s):

Leaf Litter ◽

Litter Decomposition ◽

Management Practices ◽

N Deposition ◽

Moso Bamboo ◽

Leaf Litter Decomposition ◽

Bamboo Forest ◽

Moso Bamboo Forest

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Nitrogen Additions Retard Nutrient Release from Two Contrasting Foliar Litters in a Subtropical Forest, Southwest China

Forests ◽

10.3390/f11040377 ◽

2020 ◽

Vol 11 (4) ◽

pp. 377 ◽

Cited By ~ 2

Author(s):

Liyan Zhuang ◽

Qun Liu ◽

Ziyi Liang ◽

Chengming You ◽

Bo Tan ◽

...

Keyword(s):

Litter Decomposition ◽

Critical Role ◽

C:N Ratio ◽

Terrestrial Ecosystems ◽

N Deposition ◽

Decay Rates ◽

N Addition ◽

K Value ◽

P Release ◽

N Additions

Litter decomposition plays a critical role in regulating biogeochemical cycles in terrestrial ecosystems and is profoundly impacted by increasing atmospheric nitrogen (N) deposition. Here, a N manipulation experiment was conducted to explore the effects of N additions (0 kg N ha−1 yr−1, 20 kg N ha−1 yr−1 and 40 kg N ha−1 yr−1) on decay rates and nutrients release of two contrasting species, the evergreen and nutrient-poor Michelia wilsonii and the deciduous and nutrient-rich Camptotheca acuminata, using a litterbag approach at the western edge of the Sichuan Basin of China. The decay rate and the mineralization of N and phosphorus (P) was faster in nutrient-rich C. acuminata litter than in nutrient-poor M. wilsonii litter, regardless of N regimes. N additions tended to decrease the decay constant (k value) in M. wilsonii litter, but had no effect on C. acuminata litter. N additions had no significant effects on carbon (C) release of both litter types. N additions showed negative effects on N and P release of M. wilsonii litter, particularly in the late decomposition stage. Moreover, for C. acuminata litter, N additions did not affect N release, but retarded P release in the late stage. N additions did not affect the C:N ratio in both litter types. However, N additions—especially high-N addition treatments—tended to reduce C:P and N:P ratios in both species. The effect of N addition on N and P remaining was stronger in M. wilsonii litter than in C. acuminata litter. The results of this study indicate that N additions retarded the nutrients release of two foliar litters. Thus, rising N deposition might favor the retention of N and P via litter decomposition in this specific area experiencing significant N deposition.

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