Your search keyword '"Anning Zhu"' showing total 61 results

1. The Effects of Weather Data Sources on Simulated Winter Wheat Yield at Regional Scales

Author

Zongzheng Yan, Haichun Jing, Anning Zhu, and Xiying Zhang

Subjects

Plant Science, Agronomy and Crop Science

Published

2023

2. Transformation of fertilizer nitrogen in fluvo-aquic soils with different textures and its influencing factors

Author

Shijie Ding, Xiuli Xin, Wenliang Yang, Xianfeng Zhang, Anning Zhu, Shaomin Huang, Jiao Yang, Guocui Ren, and Mengrou Li

Subjects

Soil Science, Plant Science

Published

2022

3. A laser absorption spectroscopy chamber system based on closed dynamic chamber method for multi-point synchronous monitoring ammonia emissions

Author

Wenliang Yang, Kun You, Ying He, Yujun Zhang, Xiuli Xin, Xianfeng Zhang, and Anning Zhu

Subjects

Environmental Engineering, Environmental Chemistry, Pollution, Waste Management and Disposal

Published

2023

4. Soil Nutrients and Aggregate Composition of Four Soils with Contrasting Textures in a Long-Term Experiment

Author

Xiuli Xin, S. M. Huang, Wanli Yang, Xueying Zhang, Shijie Ding, and Anning Zhu

Subjects

Cambisol, Agronomy, Soil test, Chemistry, Soil texture, Loam, Soil water, Soil Science, Soil carbon, Soil fertility, Silt, Earth-Surface Processes

Abstract

Soil texture, coupled with environmental factors, plays an important role in soil nutrient conservation. In order to evaluate the effect of soil texture on soil fertility of fluvo-aquic soil, a long-term experiment that included four fluvo-aquic soils with different textures (sand, sandy loam, sandy clay loam and loamy clay) was established in 1990. In 2017, soil samples were collected from the 0–20 cm depth to measure soil organic carbon (SOC), total nitrogen (TN), total phosphorus (TP), total potassium (TK), alkali-hydrolysable nitrogen (AN), available phosphorus (AP) and available potassium (AK) concentrations, water-stable aggregate distribution, and aggregate-associated carbon and nitrogen. After 27 years of the experiment, the sand content decreased and the silt and clay content increased in sand and sandy loam, while the sand content increased and the silt content decreased in loamy clay. The SOC, total and available N, P and K (except TK) increased more in coarse-textured soils than in finely textured soils, while the concentrations of SOC, TN, TP, AN and AK increased significantly with a decrease in the sand content. The SOC, TN, AN and AK concentrations in loamy clay were 2 to 3 times higher than those in the sand treatment. The mass percentage of each aggregate fraction, especially the content of macroaggregates, increased significantly with a decrease in the sand content. Soil aggregates play an important role in SOC and TN storage. 75–84% of SOC and 67–81% of TN were stored in macroaggregates and microaggregates. It was concluded that soil particle composition was affected by long-term cultivation. The finely textured soils had higher SOC, TN and TP storage capacity and provided more AN and AK. The formation and stability of aggregate structures were limited by the high content of sand particles, which led to a negative influence on the storage and supply of SOC and N in the fluvo-aquic soils.

Published

2021

5. Poor physical structural components restrict soil fertility and crop productivity for wheat–maize cropping

Author

Xiuli Xin, Wenliang Yang, Xianfeng Zhang, Shijie Ding, and Anning Zhu

Subjects

business.product_category, Inceptisol, Soil texture, Soil organic matter, Soil Science, 04 agricultural and veterinary sciences, 010501 environmental sciences, complex mixtures, 01 natural sciences, Plough, Agronomy, Loam, Soil water, 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, Environmental science, Soil fertility, business, Agronomy and Crop Science, Subsoil, 0105 earth and related environmental sciences

Abstract

Improving poor physical structural components has been gaining increasing recognition for its role in enhancing soil fertility. This study was conducted to identify the key physical structural barriers for soil fertility and their effects on crop productivity in Aquic Inceptisol. Based on the strip sampling in Fengqiu County, arable soils from 0–0.40 m profile pits were collected to determine the physical structural components including plough layer thickness, textural composition, soil aggregation and bulk density, as well as stocks of soil organic matter (SOM), total nitrogen (TN) and total phosphorus (TP). The grain yields of wheat and maize and amounts of fertilizer applications were also investigated. The tested soil was dominated by a plough layer of 0.15–0.18 m and sandy loam texture, which constituted 50% and 59%, respectively, of the studied profile pits. Compared to the soil with

Published

2020

6. Soil organic carbon and nitrogen fractions as affected by straw and nitrogen management on the North China Plain

Author

Guocui Ren, Xianfeng Zhang, Xiuli Xin, Wenliang Yang, Anning Zhu, Jiao Yang, and Mengrou Li

Subjects

Ecology, Animal Science and Zoology, Agronomy and Crop Science

Published

2023

7. The fate of fertilizer-derived phosphorus under different long-term fertilization regimes: A phosphate oxygen isotope study

Author

Jiao, Yang, Xiuli, Xin, Xinyue, Zhong, Wenliang, Yang, Xianfeng, Zhang, Shijie, Ding, Guocui, Ren, and Anning, Zhu

Subjects

Environmental Engineering, Nitrogen, Phosphorus, Agriculture, Oxygen Isotopes, Pollution, Phosphates, Oxygen, Soil, Fertilization, Sodium Hydroxide, Environmental Chemistry, Fertilizers, Waste Management and Disposal, Soil Microbiology

Abstract

Understanding the fate of exogenous fertilizer-derived inorganic phosphorus (P

Published

2023

8. Long-term appropriate N management can continuously enhance gross N mineralization rates and crop yields in a maize-wheat rotation system

Author

Xiaoyuan Yan, Mengqiu He, Xiuli Xin, Lei Meng, Jinbo Zhang, Christoph Müller, Zucong Cai, Anning Zhu, and Chang Zhao

Subjects

Crop yield, Soil Science, chemistry.chemical_element, Mineralization (soil science), Microbiology, Nitrogen, Animal science, Human fertilization, chemistry, Soil water, Rotation system, Nitrification, Autotroph, Agronomy and Crop Science

Abstract

A 15 N tracing study was conducted with soils from a long-term nitrogen (N) fertilization experiment to quantify the concurrent gross N transformation rates in soil and the underlying mechanisms for crop yield and N2O emission variability. The treatments were chemical fertilization (NPK, NP, PK, NK), organic fertilization (OF), half chemical/organic fertilization (HOF), and no fertilization (control, CK). The results showed that 30 years of repeated organic or chemical N applications significantly stimulated gross rates of N mineralization and autotrophic nitrification compared with CK. In addition, gross rates of N mineralization (except NP) and autotrophic nitrification (except CK, PK) in all treatments were significantly higher in 2019 (30 years) than in 2007 (18 years). However, the immobilization of mineral N decreased significantly (near to zero) after 30 years of repeated N applications compared to CK or the results of 18 years. The highest maize yields were observed in NPK, but they were not significantly different from HOF yields. The OM yields significantly increased with the duration of the experiment and reached values comparable to NPK yields after more than 12 years of repeated N applications. There was a logarithmic positive relationship between maize yields and gross N mineralization rates (p

Published

2021

9. In-situ automatic measuring device for ammonia volatilization in farmland

Author

Wenliang Yang, Yujun Zhang, Kun You, Boqiang Fan, Wangchun Zhang, Ying He, Liming Wang, Li Hongbin, Boen Lei, Anning Zhu, and Dong-Qi Yu

Subjects

business.industry, Sampling (statistics), Ammonia volatilization from urea, Temperature measurement, Ammonia, chemistry.chemical_compound, Data acquisition, chemistry, Controller (irrigation), Environmental science, Absorption (electromagnetic radiation), Process engineering, business, Sensitivity (electronics)

Abstract

Excessive application of nitrogen fertilizer has caused the reduction of nitrogen fertilizer utilization efficiency, resource waste and environmental problems in our country. There are disadvantages of long sampling and heavy workload using the traditional methods of acid absorption and box method for farmland ammonia volatilization measurement. In order to meet the application needs for on-line automatic measurement of ammonia volatilization in farmland, an in-situ automatic measurement device for ammonia volatilization was designed combined with laser spectroscopy technology. The main body of the measurement device is an integrated sampling box, with the advantages of long optical path measurement, heat resistance and corrosion resistance. The control circuit of the sampling box used ARM as the main controller for environmental data monitoring, automatic opening and closing of the cover and lens temperature controlling. The ammonia volatilization results were analyzed by the data acquisition and processing system after the laser passed through the sampling box to obtain ammonia spectroscopy signal. The device was used for observation at Fengqiu Ecological Station, CAS. The results showed that the ammonia volatilization rose rapidly after 90 minutes for nitrogen fertilizer applying, and it decreased gradually to a low value after 270 minutes. According to the experimental results, the continuous measurement time for cover closing can be set to 3 minutes, and the cover opening time can be set to 3 to 5 minutes. The working performance of the automatic measurement device was verified through these experiments, with the advantages of low power consumption, high measurement sensitivity, and no gas sampling. It realizes insitu automatic measurement for ammonia volatilization in farmland with the natural respiration condition of the soil.

Published

2021

10. Characterization of fluvo-aquic soil phosphorus affected by long-term fertilization using solution 31P NMR spectroscopy

Author

Anning Zhu, Xianfeng Zhang, Wenliang Yang, Xinyue Zhong, Wenying Chu, Jiabao Zhang, Jingdong Mao, and Xiuli Xin

Subjects

Environmental Engineering, 010504 meteorology & atmospheric sciences, Soil test, Compost, Phosphorus, chemistry.chemical_element, 010501 environmental sciences, engineering.material, 01 natural sciences, Pollution, Animal science, Human fertilization, chemistry, Soil water, engineering, Environmental Chemistry, Fertilizer, Soil fertility, Waste Management and Disposal, Organic fertilizer, 0105 earth and related environmental sciences

Abstract

Reducing the applications of mineral phosphorus (P) fertilizers and supplementing them by organic fertilizers is becoming a necessary practice in the North China Plain due to overuse of mineral P fertilizers and improper disposal of organic wastes. Knowledge is needed about how the long-term substitution of mineral fertilizers by organic fertilizers affects soil P forms in order to understand soil P transformation and crop P uptake. In this study, we used solution 31P nuclear magnetic resonance (NMR) spectroscopy to characterize P forms in fluvo-aquic soil after 26 years of different fertilization management strategies, organic compost (OM), half compost in combination with half mineral fertilizer NPK (1/2 OM), mineral fertilizer NPK (NPK), mineral fertilizer NK (NK), and an unfertilized control (CK). Results showed that the P extraction efficiency using NaOH-EDTA varied from 13.0 to 27.7% for the soils of the treatments. 31P NMR spectra indicated that the majority of P was in the form of orthophosphate for all the treatments, which constituted 64.3–83.5% of the total extracted P. The application of P fertilizers significantly increased the concentrations of orthophosphate, monoesters and diesters regardless of the P fertilization method, although the proportions of monoesters and diesters were higher in CK. The proportions and concentrations of orthophosphate significantly decreased when all mineral fertilizers were replaced by compost. There was no significant difference in the proportions and concentrations of total organic P, corrected monoesters and diesters in NaOH-EDTA extracts of soils among NPK, 1/2OM and OM treatments. Decreasing mineral P fertilizers and partly replacing them by organic fertilizer in fluvo-aquic soil might increase soil test (Olsen) P and crop P uptake through the degradation of applied organic P forms.

Published

2019

11. Comparison of backward Lagrangian stochastic model with micrometeorological mass balance method for measuring ammonia emissions from rice field

Author

Wenliang Yang, Shuwei Wang, Yujun Zhang, Xianfeng Zhang, Anning Zhu, Huali Que, Xiuli Xin, and Ying He

Subjects

Detection limit, Atmospheric Science, Daytime, 010504 meteorology & atmospheric sciences, Field experiment, Vegetation, 010501 environmental sciences, Atmospheric sciences, Laser, 01 natural sciences, law.invention, Ammonia, chemistry.chemical_compound, chemistry, Diurnal cycle, law, Paddy field, Environmental science, 0105 earth and related environmental sciences, General Environmental Science

Abstract

A field experiment was conducted to assess the accuracy of the backward Lagrangian stochastic (BLS) model combined with an open-path tunable diode laser (OPTDL) system for estimating ammonia emissions from rice field by comparing with the micrometeorological mass balance (MMB) method. During the experimental period, the average height of rice was 0.65 m, and the average height of laser path was 1.3 m. The results showed that there was no significant difference between the ammonia emission rates estimated by the two methods, indicating no significant effect of tall rice on the accuracy of the BLS model. The high temporal resolution data showed that ammonia emissions had a dramatic diurnal cycle: rise at daytime and fall at night. Although the OPTDL technique was not able to measure ammonia concentrations at low emission rates due to relatively high detection limit, the total ammonia loss estimated by the BLS model was not significant different from that of the MMB method. The results demonstrate the effectiveness of the BLS model with the OPTDL technique for estimating ammonia emissions from farmland covered with tall vegetation. Within the acceptable accuracy, the relatively low laser path height is recommended for farmland with tall vegetation due to relatively high detection limit of the OPTDL technique and low ammonia concentration of farmland.

Published

2019

12. Tillage and residue management for long-term wheat-maize cropping in the North China Plain: I. Crop yield and integrated soil fertility index

Author

Shijie Ding, Anning Zhu, Wenliang Yang, Xiuli Xin, Xianfeng Zhang, and Jiabao Zhang

Subjects

Residue (complex analysis), Soil test, Crop yield, Soil organic matter, Soil Science, 04 agricultural and veterinary sciences, 010501 environmental sciences, 01 natural sciences, Soil quality, Tillage, Agronomy, Loam, 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, Environmental science, Soil fertility, Agronomy and Crop Science, 0105 earth and related environmental sciences

Abstract

Conservation tillage has been gaining increasing recognition for its role in improving soil quality and maintaining agricultural sustainability. This is the first in a series of papers describing the impacts of reduced/no-tillage with and without residue based on the field experiment in the North China Plain. The experiment was established in 2006 on a sandy loam soil and involved a winter wheat-summer maize rotation system per year. The objective of this study was to investigate the impacts of different conservation tillage systems on crop yield and soil fertility that was quantified by a minimum data set and integrated index. Soil samples were collected since 2011, and the stocks of soil organic matter (SOM), total nitrogen (TN), alkali-hydrolyzale nitrogen (AN), total phosphorus (TP), available phosphorus (AP), total potassium (TK) and available potassium (AK) were measured for each year as well as soil aggregates were fractionated for 2016. Compared to continuous tillage, the reduced/no-tillage, regardless of residue, significantly increased the macroaggregate mass and soil nutrient stocks at the 0–10 cm depth, while further improvements in these soil attributes apart from TK were observed at the 0–10 and 10–20 cm depths for residue returning relative to residue removing. The accumulations of soil nutrients were closely related to soil macroaggregation. The path analysis revealed that TN was the most important soil attribute to directly determine wheat and maize yields while other soil attributes apart for TK primarily made indirect contributions to the yields. The first two factors extracted using 8 soil attributes through factor analysis were selected as the integrated indicators for the minimum data set, and their integrated score was calculated to quantify soil fertility. It was found that reduced/no-tillage did not improved soil fertility at the 0–20 cm depth. Consequently, an average 6.9% decrease in wheat yield across all years was observed under no-tillage while reduced tillage only increased the yield in the first two years in a periodic reduced tillage event. No significant difference was observed for the mean maize yield among the three tillage regimes averaged across all years and residue managements. Wheat and maize yields were significantly correlated with the integrated score for soil fertility, and thus significant increases in grain yields of wheat and maize were observed for residue returning. It can be concluded that grain yields of wheat and maize within a given residue management practice were not significantly higher for reduced/no-tillage than continuous tillage, regardless of the effects of tillage on aggregates and soil nutrients.

Published

2018

13. Linking macroaggregation to soil microbial community and organic carbon accumulation under different tillage and residue managements

Author

Jiabao Zhang, Lan Mu, Xiuli Xin, Xianfeng Zhang, Lingling Shao, Wenliang Yang, Shijie Ding, and Anning Zhu

Subjects

Total organic carbon, biology, Chemistry, Soil Science, 04 agricultural and veterinary sciences, 010501 environmental sciences, Straw, biology.organism_classification, complex mixtures, 01 natural sciences, Actinobacteria, Tillage, Microbial population biology, Environmental chemistry, Soil water, 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, Composition (visual arts), Agronomy and Crop Science, Water content, 0105 earth and related environmental sciences, Earth-Surface Processes

Abstract

The formation of aggregates plays a key role in shaping soil microenvironment, which in turn influences microbial community structure and organic carbon (C) dynamics in soil. The objective of this study was to identify the linkages between soil macroaggregation and microbial community as well as organic C accumulation using field samples following 9 years of conservation tillage. A wet-sieving method was used to fractionate soil aggregates and soil microbial abundance and community composition were determined using phospholipid fatty acid (PLFA) analysis. Compared to continuous tillage, reduced/no-tillage and straw returning significantly promoted soil macroaggregation and consequently increased organic C, C/N ratio and soil moisture but decreased the porosity and computed effective oxygen diffusion coefficients. The changes in these soil characteristics were closely related to the abundance and composition of microbial community. The abundance of microbial PLFAs in reduced/no-tillage soils was 30.0% higher in Gram-positive bacteria, 11.6% higher in Gram-negative bacteria, 71.7% higher in fungi and 45.4% lower in actinobacteria, whereas straw returning significantly increased all microbial PLFA abundances relative to straw removing. The ratios of bacteria/fungi (B/F) and monounsaturated/branched (M/B) PLFAs were significantly correlated with the volumetric soil water content, porosity, or computed effective oxygen diffusion coefficients. Soil macroaggregation and microbial community composition collectively explained 82.4% variation in organic C accumulation and their interaction made the largest contribution. Overall, soil macroaggregation under conservation tillage might cause a shift in microbial community to more fungi and anaerobes through primarily influencing soil moisture and aeration, which could effectively promote organic C accumulation in soil.

Published

2018

14. Abundance and depth stratification of soil arthropods as influenced by tillage regimes in a sandy loam soil

Author

Wei Yang, Qiang-gen Zhu, Jiabao Zhang, Xiuli Xin, Xueying Zhang, and Anning Zhu

Subjects

0106 biological sciences, Soil Science, 04 agricultural and veterinary sciences, Stratification (vegetation), Seasonality, medicine.disease, 01 natural sciences, Pollution, Tillage, Agronomy, Community composition, Abundance (ecology), Loam, 040103 agronomy & agriculture, medicine, 0401 agriculture, forestry, and fisheries, Environmental science, Agronomy and Crop Science, 010606 plant biology & botany, Soil arthropods

Published

2018

15. Nitrate accumulation and leaching potential reduced by coupled water and nitrogen management in the Huang-Huai-Hai Plain

Author

Xiuli Xin, Shengjun Wu, Gina Garland, Xiaopeng Li, Ping Huang, Anning Zhu, Engil Isadora Pujol Pereira, Congzhi Zhang, Donghao Ma, and Jiabao Zhang

Subjects

Irrigation, Environmental Engineering, food and beverages, chemistry.chemical_element, 04 agricultural and veterinary sciences, 010501 environmental sciences, 01 natural sciences, Pollution, Nitrogen, Leaching model, Field capacity, chemistry.chemical_compound, chemistry, Agronomy, Nitrate, 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, Environmental Chemistry, Environmental science, Soil horizon, Leaching (agriculture), Waste Management and Disposal, Groundwater, 0105 earth and related environmental sciences

Abstract

Irrigation and nitrogen (N) fertilization in excess of crop requirements are responsible for substantial nitrate accumulation in the soil profile and contamination of groundwater by nitrate leaching during intensive agricultural production. In this on-farm field trial, we compared 16 different water and N treatments on nitrate accumulation and its distribution in the soil profile (0-180cm), nitrate leaching potential, and groundwater nitrate concentration within a summer-maize (Zea mays L.) and winter-wheat (Triticum aestivum L.) rotation system in the Huang-Huai-Hai Plain over five cropping cycles (2006-2010). The results indicated that nitrate remaining in the soil profile after crop harvest and nitrate concentration of soil solutions at two depths (80cm and 180cm) declined with increasing irrigation amounts and increased greatly with increasing N application rates, especially for seasonal N application rates higher than 190kgNha-1. During the experimental period, continuous torrential rainfall was the main cause for nitrate leaching beyond the root zone (180cm), which could pose potential risks for contamination of groundwater. Nitrate concentration of groundwater varied from 0.2 to 2.9mgL-1, which was lower than the limit of 10mgL-1 as the maximum safe level for drinking water. In view of the balance between grain production and environmental consequences, seasonal N application rates of 190kgNha-1 and 150kgNha-1 were recommended for winter wheat and summer maize, respectively. Irrigation to the field capacity of 0-40cm and 0-60cm soil depth could be appropriate for maize and wheat, respectively. Therefore, taking grain yields, mineral N accumulation in the soil profile, nitrate leaching potential, and groundwater quality into account, coupled water and N management could provide an opportunity to promote grain production while reducing negative environmental impacts in this region.

Published

2018

16. Soil respiration and net carbon flux response to long-term reduced/no-tillage with and without residues in a wheat-maize cropping system

Author

Xiuli Xin, Mengrou Li, Guocui Ren, Shijie Ding, Anning Zhu, Xianfeng Zhang, and Wenliang Yang

Subjects

Soil respiration, Tillage, Topsoil, Residue (complex analysis), Agronomy, Respiration, Soil Science, Environmental science, Soil fertility, Cropping system, Agronomy and Crop Science, Bulk density, Earth-Surface Processes

Abstract

Conservation tillage is not only beneficial to the improvement of integrated soil fertility and crop yield, but also plays a pivotal role in the achievement of ecological agricultural production. Based on a continuous 10-year conservation tillage experiment in the North China Plain, this paper aimed to investigate the effects on soil respiration and net carbon (C) flux in the wheat-maize cropping system, and to identify the physicochemical controls of soil respiration C emission under different tillage and residue managements. Results showed that soil respiration was generally determined by soil temperature, with the lowest and highest rates of 0.50 and 6.54 μmol CO2-C m−2 s-1 in January and July, respectively. Compared with continuous tillage, the reduced/no-tillage without residue significantly reduced soil respiration rate and the cumulative CO2 emissions, which was principally due to the increased bulk density and decreased effective gas diffusivity according to the redundancy analysis. Whereas, over 90 % increases in soil respiration C emission could be ascribed to the accumulation of organic C, especially for the labile fraction, under residue returning than under residue removing. Additionally, the increased organic C stock in topsoil possibly accounted for the accelerated respiration C emission under reduced/no-tillage with residues. From the perspective of net C flux, it was suggested that decreasing tillage intensity generally reduced the C emissions from agricultural inputs by 11.0 %, while those were increased on average by 7.7 % through implementing residue crushing under residue returning relative to residue removing. Residue returning also increased the mean annual organic C accumulation rate by 115.2 % at the 0–20 cm depth. Collectively, each of the tillage and residue management served as small net C source, but reduced/no-tillage with residues significantly decreased the net C flux while increasing the sustainability and C productivity indexes for wheat-maize cropping system.

Published

2021

17. Effects of tillage and residue managements on organic C accumulation and soil aggregation in a sandy loam soil of the North China Plain

Author

Xianfeng Zhang, Wenliang Yang, Jiabao Zhang, Xiuli Xin, and Anning Zhu

Subjects

chemistry.chemical_classification, Lability, Soil organic matter, Soil chemistry, 04 agricultural and veterinary sciences, Soil carbon, 010501 environmental sciences, 01 natural sciences, Tillage, Agronomy, chemistry, Loam, Soil water, 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, Environmental science, Organic matter, 0105 earth and related environmental sciences, Earth-Surface Processes

Abstract

This paper was primarily devoted to reveal the stock of soil organic carbon (C) as well as its lability and to compare their differences existing among tillage and residue practices, aiming to identify the effects on the accumulation process of organic C and its association with macroaggregation. Arable soils following 8-year contrasting managements were collected to determine aggregate size distribution, organic C content and its lability. A wet-sieving method was used to fractionate aggregate fractions including > 2000 μm large macroaggregates, 2000–250 μm small macroaggregates, 250–53 μm microaggregates, and

Published

2017

18. Relationships between soil macroaggregation and humic carbon in a sandy loam soil following conservation tillage

Author

Shuchun Ge, Xianfeng Zhang, Jiabao Zhang, Xiuli Xin, Wenliang Yang, and Anning Zhu

Subjects

chemistry.chemical_classification, Residue (complex analysis), Stratigraphy, 04 agricultural and veterinary sciences, Fractionation, 010501 environmental sciences, Straw, Silt, 01 natural sciences, Tillage, Animal science, chemistry, Agronomy, Loam, Soil water, 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, Humic acid, 0105 earth and related environmental sciences, Earth-Surface Processes

Abstract

Humic substances are recalcitrant and might act as persistent binding agents to form macroaggregates. The focus of this study is in investigating the contribution of humic carbon (HC) to soil aggregation in response to various tillage and residue managements. Arable soils following 8-year contrasting managements were collected to determine aggregate size distribution and stability and HC fractions including humic acid (HA) and fulvic acid (FA). The contribution of HC to aggregation was divided into three special effects including positive effect (PE), negative effect (NE), and combined effect (CE), and these effects were measured using aggregate fractionation techniques. As well as to promote structural stability, HC bounds predominantly with the silt + clay fraction and secondarily with microaggregates to form larger aggregates. The PE increased with increasing aggregate size, whereas the NE followed the opposite pattern. A positive CE was observed for large and small macroaggregates, whereas the CE for microaggregates and the silt + clay fraction was negative. Compared to continuous tillage, reduced- and no-tillage decreased the PE for large and small macroaggregates by 1.58–30.98% at the 0–20 cm depth, and straw returning also slightly decreased the corresponding PE relative to straw removing. By contrast, a significantly higher NE for small macroaggregates at the 0–10 cm depth while 6.33–81.11% decreases in CE for large and small macroaggregates at the 0–10 cm depth as well as for large macroaggregates at the 10–20 cm depth, were observed under reduced- and no-tillage. The extraction of HC significantly reduced the aggregate stability and reduced- and no-tillage effectively limited its decrease magnitude. Small macroaggregates and microaggregates made larger contributions to soil HC accumulation than did other fractions. An averagely increased contribution from large or small macroaggregates was observed under both reduced-/no-tillage and straw returning at the 0–20 cm depth. A significant and positive relationship was found between the mass proportion of macroaggregates and the HC accumulation in 0–20 cm soil. Large macroaggregates had significantly higher HA/FA ratios than small macroaggregates, and reduced- and no-tillage significantly increased these ratios both in large and in small macroaggregates. The CE for large or small macroaggregates was also significantly negatively correlated with their HA/FA ratios. Overall, the HC accumulation in soil is likely to play a key role in macroaggregation, but conservation tillage might decrease the contribution magnitude of HC to large or small macroaggregation through increasing the corresponding HA/FA ratios.

Published

2017

19. Response to discussion of 'Atmospheric deposition as an important nitrogen load to a typical agro-ecosystem in the Huang-Huai-Hai Plain' by Huang et al. (2016)

Author

Jiabao Zhang, Anning Zhu, Xiuli Xin, Shengjun Wu, Zhaofei Wen, Congzhi Zhang, Engil Isadora Pujol Pereira, Ping Huang, Donghao Ma, and Gina Garland

Subjects

Atmospheric Science, 010504 meteorology & atmospheric sciences, chemistry, Environmental science, chemistry.chemical_element, Ecosystem, 010501 environmental sciences, Atmospheric sciences, 01 natural sciences, Nitrogen, 0105 earth and related environmental sciences, General Environmental Science

Published

2017

20. Evaluation of a backward Lagrangian stochastic model for determining surface ammonia emissions

Author

Jiabao Zhang, Wenliang Yang, Xiuli Xin, Xianfeng Zhang, and Anning Zhu

Subjects

Atmospheric Science, Global and Planetary Change, Flux method, 010504 meteorology & atmospheric sciences, Extrapolation, Forestry, 04 agricultural and veterinary sciences, Radiation, Atmospheric sciences, 01 natural sciences, Ammonia, chemistry.chemical_compound, Lagrangian stochastic model, Flux (metallurgy), chemistry, Diurnal cycle, Dispersion (optics), 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, Environmental science, Agronomy and Crop Science, 0105 earth and related environmental sciences

Abstract

The rate of ammonia emissions from a small circular plot of maize was estimated by three procedures: (i) by inverse dispersion (based on upwind and downwind laser concentration-detectors interpreted using a backward Lagrangian stochastic model); (ii) by the height-integrated horizontal flux measured by point flux-detectors arrayed along the axis of the plot (i.e., the integrated horizontal flux method, IHF); and (iii) by extrapolation from static flux chambers (SC). The results indicated that the estimates made by the open-path tunable diode laser (OPTDL) system combined with the backward Lagrangian stochastic (BLS) model were statistically equivalent to those made by the IHF method. The ammonia fluxes estimated by the OPTDL-BLS technique were only 2.3% higher than those from the IHF method. Although the OPTDL technique failed to monitor concentration differences at low ammonia fluxes due to its detection limit, the OPTDL-BLS technique estimated the total ammonia loss to be only 10.9% less than the IHF results. The SC method was found to underestimate ammonia emissions and cumulative ammonia loss significantly compared with both the OPTDL-BLS and IHF methods Although the ammonia emissions estimated by the OPTDL-BLS technique showed a similar emission pattern to those estimated by the IHF method, the former provided an opportunity to estimate the diurnal pattern of ammonia emissions and to understanding the primary driving factors. A clear diurnal cycle and a dominant net solar radiation dependence in ammonia emissions were found.

Published

2017

21. High temporal resolution measurements of ammonia emissions following different nitrogen application rates from a rice field in the Taihu Lake Region of China

Author

Xiuli Xin, Huali Que, Xianfeng Zhang, Ying He, Shuwei Wang, Shijie Ding, Anning Zhu, Wenliang Yang, and Yujun Zhang

Subjects

China, 010504 meteorology & atmospheric sciences, Nitrogen, Health, Toxicology and Mutagenesis, chemistry.chemical_element, 010501 environmental sciences, engineering.material, Toxicology, 01 natural sciences, Ammonia, chemistry.chemical_compound, Fertilizers, 0105 earth and related environmental sciences, Panicle, Air Pollutants, Tunable diode laser absorption spectroscopy, Agriculture, Oryza, General Medicine, Pollution, Lakes, chemistry, Environmental chemistry, engineering, Environmental science, Paddy field, Stage (hydrology), Fertilizer, Surface water, Environmental Monitoring

Abstract

Ammonia emission is one of the dominant pathways of nitrogen fertilizer loss from rice fields in China. It is difficult to measure ammonia emissions by high-frequency sampling with the chamber methods widely used in China, which is of great significance for investigating the environmental effects on the ammonia emissions. The chamber methods also can not accurately determine the ammonia emissions. In this study, the backward Lagrangian stochastic dispersion model, with ammonia concentrations continuously measured by the open-path tunable diode laser absorption spectroscopy technique, was used to determine ammonia emissions from a rice field after fertilizer application at excessive (270 kg N ha−1) and appropriate (210 kg N ha−1) rates in the Taihu Lake Region of China. High temporal resolution measurements of ammonia emissions revealed that high intraday fluctuations of ammonia emissions were significantly affected by the meteorological conditions. Multiple regression analysis showed a dominant solar radiation dependence of intraday ammonia emission cycles, especially during the rice panicle formation stage. The NH4+-N concentrations of the surface water of the rice field were found to be the decisive factor that influenced interday dynamics of ammonia emissions. Accurate quantifications of ammonia emissions indicated that the total ammonia losses under appropriate nitrogen application rate were 27.4 kg N ha−1 during the rice tillering stage and 11.2 kg N ha−1 during the panicle formation stage, which were 29.4% and 17.0% less than those under traditional excessive nitrogen application rate used by the local farmers, respectively. The ammonia loss proportions during the rice panicle formation stage were significantly lower than those of the tillering stage, which might be due to different nitrogen application rates and environmental effects during the two stages. This study indicated that the open-path tunable diode laser absorption spectroscopy technique could facilitate the investigation of high temporal resolution dynamic of ammonia emissions from farmland and the environmental influence on the ammonia emissions.

Published

2019

22. Accumulation of organic components and its association with macroaggregation in a sandy loam soil following conservation tillage

Author

Jiabao Zhang, Wenliang Yang, Xianfeng Zhang, and Anning Zhu

Subjects

chemistry.chemical_classification, Total organic carbon, Soil organic matter, Soil Science, Soil chemistry, 04 agricultural and veterinary sciences, Plant Science, Soil carbon, 010501 environmental sciences, 01 natural sciences, Tillage, No-till farming, chemistry, Agronomy, Loam, 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, Organic matter, 0105 earth and related environmental sciences

Abstract

This paper was primarily devoted to reveal the composition of soil organic carbon (C) at a molecular level and to compare the differences existing among tillage practices after 8 years of contrasting managements, aiming to identify the effects of conservation tillage on the accumulation process of soil organic C and its association with macroaggregation. A sandy loam soil following 8-year conservation tillage was collected to identify the dynamics of organic components and their associations with macroaggregation. The content of particulate organic matter within macroaggregates was determined using aggregate fractionation techniques. Conservation tillage improved the accumulation efficiency of different C functional groups in large and small macroaggregates, and resulted in a higher soil organic C level. The content of C functional groups was significantly and positively correlated with the C amount of subfractions in macroaggregates. The accumulation of organic components, particularly the methoxyl/N-alkyl C in the 0–5 cm layer and the O-alkyl C in the 5–10 cm layer, in turn, accelerated soil macroaggregation. Overall, organic component accumulation and soil macroaggregation were interacted on each other. Our results suggested that the enrichment of methoxyl/N-alkyl C and O-alkyl C in the test soil following conservation tillage could effectively promote organic C accumulation and macroaggregation.

Published

2017

23. No-tillage with half-amount residue retention enhances microbial functional diversity, enzyme activity and glomalin-related soil protein content within soil aggregates

Author

Xiangui Lin, Jue Dai, Anning Zhu, and Junli Hu

Subjects

Residue (complex analysis), Topsoil, Conventional tillage, biology, Chemistry, Heterotroph, Soil Science, 04 agricultural and veterinary sciences, 010501 environmental sciences, 01 natural sciences, Pollution, Decomposer, Enzyme assay, Tillage, Glomalin, Agronomy, 040103 agronomy & agriculture, biology.protein, 0401 agriculture, forestry, and fisheries, Agronomy and Crop Science, 0105 earth and related environmental sciences

Abstract

A 3-year field tillage and residue management experiment established in North China was used to analyse topsoil (0–15 cm) aggregation, and microbial functional diversity, enzyme activity and glomalin-related soil protein (GRSP) content within aggregates. Compared with conventional tillage (CT), no-tillage (NT) alone significantly (P 250 and

Published

2017

24. Atmospheric deposition as an important nitrogen load to a typical agro-ecosystem in the Huang-Huai-Hai Plain. 2. Seasonal and inter-annual variations and their implications (2008–2012)

Author

Gina Garland, Shengjun Wu, Zhaofei Wen, Donghao Ma, Anning Zhu, Engil Isadora Pujol Pereira, Ping Huang, Xiuli Xin, Jiabao Zhang, and Congzhi Zhang

Subjects

Hydrology, Atmospheric Science, 010504 meteorology & atmospheric sciences, Nutrient management, chemistry.chemical_element, Vegetation, 010501 environmental sciences, Atmospheric sciences, 01 natural sciences, Nitrogen, Deposition (aerosol physics), chemistry, Rotation system, Environmental science, Ecosystem, Precipitation, Field management, 0105 earth and related environmental sciences, General Environmental Science

Abstract

Atmospheric nitrogen (N) deposition, an important N source to agro-ecosystems, has increased intensively in China during recent decades. However, knowledge on temporal variations of total N deposition and their influencing factors is limited due to lack of systematic monitoring data. In this study, total N deposition, including dry and wet components, was monitored using the water surrogate surface method for a typical agro-ecosystem with a winter wheat (Triticum aestivum L.) and summer maize (Zea mays L.) rotation system in the Huang-Huai-Hai Plain from May 2008 to April 2012. The results indicated that annual total N deposition ranged from 23.8 kg N ha−1 (2009–2010) to 40.3 kg N ha−1 (2008–2009) and averaged 31.8 kg N ha−1. Great inter-annual variations were observed during the sampling period, due to differences in annual rainfall and gaseous N losses from farmlands. Monthly total N deposition varied greatly, from less than 0.6 kg N ha−1 (January, 2010) to over 8.0 kg N ha−1 (August, 2008), with a mean value of 2.6 kg N ha−1. In contrast to wet deposition, dry portions generally contributed more to the total, except in the precipitation-intensive months, accounting for 65% in average. NH 4 + -N was the dominant species in N deposition and its contribution to total deposition varied from 6% (December, 2009) to 79% (July, 2008), averaging 53%. The role of organic N (O–N) in both dry and wet deposition was equal to or even greater than that of NO 3 − -N. Influencing factors such as precipitation and its seasonal distribution, reactive N sources, vegetation status, field management practices, and weather conditions were responsible for the temporal variations of atmospheric N deposition and its components. These results are helpful for reducing the knowledge gaps in the temporal variations of atmospheric N deposition and their influencing factors in different ecosystems, to improve the understandings on N budget in the typical agro-ecosystem, and to provide references and recommendations for field nutrient management in this region.

Published

2016

25. Effects of long-term (23 years) mineral fertilizer and compost application on physical properties of fluvo-aquic soil in the North China Plain

Author

Jiabao Zhang, Xiuli Xin, Anning Zhu, and Congzhi Zhang

Subjects

Macropore, Compost, Chemistry, Field experiment, Soil Science, 04 agricultural and veterinary sciences, Soil carbon, 010501 environmental sciences, engineering.material, complex mixtures, 01 natural sciences, Bulk density, Hydraulic conductivity, Agronomy, Loam, 040103 agronomy & agriculture, engineering, 0401 agriculture, forestry, and fisheries, Fertilizer, Agronomy and Crop Science, 0105 earth and related environmental sciences, Earth-Surface Processes

Abstract

The influence of compost and mineral fertilization on soil organic carbon (SOC) and physical properties varied greatly in previous studies because of differences in site conditions such as climate and soil. This study was conducted as a long-term (1989–2012) field experiment to evaluate the effects of mineral fertilization and compost application on SOC content and some physical properties of an intensively cultivated sandy loam soil in the North China Plain. The experiment consisted of seven treatments: organic compost (OM); half organic compost plus half mineral fertilizer NPK (1/2OM1/2NPK); mineral fertilizer NPK (NPK); mineral fertilizer NP (NP); mineral fertilizer PK (PK); mineral fertilizer NK (NK); and unfertilized control (CK), each with four replicates. Relative to CK, the SOC content was higher in all of the compost and mineral fertilizer treatments, but increments in SOC under the compost application treatments were higher than mineral fertilization application. Compost application (OM, 1/2OM1/2NPK) decreased soil bulk density and increased total porosity significantly in comparison with that in the CK plots. Soil bulk density and total porosity for the mineral fertilization treatments, except NP, did not significantly differ from CK. The lowest penetration resistance at 0–20 cm soil depth was observed in the NK plots, and the highest penetration resistance was found in the CK plots. Compost application increased the total amount of water-stable macro-aggregates (>0.25 mm); however, MWD was not significantly affected by compost application. The MWD in the NK treatment was lower than in CK by 0.2 mm, while its variation among NPK, OM, 1/2OM1/2NPK, NP, PK, and CK was not significant. The compost- and mineral fertilizer-treated soil had 34.6–91.7% higher volume of macropores than the CK soil. The OM and 1/2OM1/2NPK-treated soil had a significantly higher proportion of small pores (

Published

2016

26. Assessing the backward Lagrangian stochastic model for determining ammonia emissions using a synthetic source

Author

Wenliang Yang, Jiabao Zhang, Wei Che, Xianfeng Zhang, and Anning Zhu

Subjects

Canopy, Atmospheric Science, Global and Planetary Change, 010504 meteorology & atmospheric sciences, Spectrometer, Meteorology, Fetch, Forestry, 04 agricultural and veterinary sciences, Atmospheric sciences, Laser, 01 natural sciences, law.invention, Ammonia, chemistry.chemical_compound, chemistry, law, 040103 agronomy & agriculture, Range (statistics), 0401 agriculture, forestry, and fisheries, Environmental science, Measurement uncertainty, Agronomy and Crop Science, Tunable laser, 0105 earth and related environmental sciences

Abstract

The backward Lagrangian stochastic (BLS) model for estimating ammonia emissions from agricultural sources was assessed in an ammonia recovery experiment. The open-path tunable diode laser spectrometer was used to measure atmospheric ammonia concentrations. The results indicated that the ratio of estimated to actual emission ( Q BLS / Q ) decreased with increasing concentration measurement height, and the optimum measurement height increased as fetch ( F ) increased. The accuracy of Q BLS was insensitive to fetch with a range of 15–60 m. The optimum ratio of concentration measurement height to fetch decreased with increasing fetch. In this study, the optimum ratio of concentration measurement height to fetch was 0.083 and 0.045 for F = 15 m and F = 30 m, respectively. It is recommended that the laser sensor should be placed as close to the source as possible to reduce concentration measurement uncertainty for measurement of ammonia emission from farmland. The wheat canopy had a significant effect on Q BLS / Q when the concentration measurement height above the wheat canopy was no more than 0.38 m. The laser path should be placed at least 0.58 m above the wheat canopy to minimize the effect of wheat canopy on the accuracy of the BLS model.

Published

2016

27. Arbuscular mycorrhizal fungal species composition, propagule density, and soil alkaline phosphatase activity in response to continuous and alternate no-tillage in Northern China

Author

Xiangui Lin, Jue Dai, Junhua Wang, Ming Hung Wong, Junli Hu, Anning Zhu, and Anna Yang

Subjects

Tillage, Topsoil, Conventional tillage, Agronomy, Loam, Acaulospora, Species diversity, Biology, biology.organism_classification, Mycelium, Glomus, Earth-Surface Processes

Abstract

article i nfo Purpose: Arbuscular mycorrhizal (AM) fungi provide a direct link between soil and roots, and are renowned for their ability to increase nutrient phytoavailability, notably phosphorus (P). The objective of this study was to evaluate influences of continuous and alternate no-tillage on soil AM fungal species composition and soil P- supply parameters. Materials andmethods: In June2006, a long-term field experiment was established ina sandy loam soil underthe rotation of summer maize (Zea mays L.) and winter wheat (Triticum aestivum L.) in Northern China, including conventional tillage (CT), no-tillage (NT) and alternate tillage (AT — tillage in the wheat season and no-tillage in the maize season). Top soil samples (0-15 cm) from four individual plots per treatment were collected before maize harvest on 18 September 2010. Soil AM fungal spores were isolated and identified, and the external my- celium length, soil alkaline phosphatase (ALP) activity and soil P content were also determined. Results and discussion: Thirty species of AM fungi within seven genera, Acaulospora, Claroideoglomus, Funneliformis, Glomus, Racocetra, Rhizophagus ,a ndScutellospora, were recovered. Some species sporulated differ- entially across the three treatments, and the lowest Jaccard index (J) of similarity in species composition was recorded between NT and CT (J = 0.767), but there were no significant differences in soil total P and available P contents, as well as in AM fungal spore density (SD), species richness (SR) and diversity indices, including Shannon-Wiener index (H'), Evenness (E) and Simpson's index (D). Compared with CT, NT rather than AT significantly increased (P b 0.05) the external mycelium length, soil ALP activity, and soil organic C content. Conclusions: Our results demonstrated the vital role of NT in maintaining external hyphae growth and soil ALP activity rather than in promoting AM fungal species diversity and spore density, and suggested that 4-year con- tinuous NT will not cause degradation in either AM fungal community or soil P-supply efficiency. © 2015 Published by Elsevier B.V.

Published

2015

28. Arbuscular mycorrhizal fungal diversity, root colonization, and soil alkaline phosphatase activity in response to maize-wheat rotation and no-tillage in North China

Author

Junli Hu, Ming Hung Wong, Anning Zhu, Junhua Wang, Jue Dai, Xiangui Lin, and Anna Yang

Subjects

Crops, Agricultural, China, Time Factors, Inceptisol, Biology, Plant Roots, Zea mays, Applied Microbiology and Biotechnology, Microbiology, Soil, Diversity index, Mycorrhizae, Soil Microbiology, Triticum, Topsoil, Conventional tillage, Species diversity, Sowing, Agriculture, Phosphorus, Biodiversity, General Medicine, Spores, Fungal, Crop rotation, Alkaline Phosphatase, Tillage, Agronomy

Abstract

Monitoring the effects of no-tillage (NT) in comparison with conventional tillage (CT) on soil microbes could improve our understanding of soil biochemical processes and thus help us to develop sound management strategies. The objective of this study was to compare the species composition and ecological function of soil arbuscular mycorrhizal (AM) fungi during the growth and rotation of crops under NT and CT. From late June 2009 to early June 2010, 32 topsoil (0-15 cm) samples from four individual plots per treatment (CT and NT) were collected at both the jointing and maturation stages of maize (Zea mays L.) and wheat (Triticum aestivum L.) from a long-term experimental field that was established in an Aquic Inceptisol in North China in June 2006. The AM fungal spores were isolated and identified and then used to calculate species diversity indices, including the Shannon- Wiener index (H'), Evenness (E), and Simpson's index (D). The root mycorrhizal colonization and soil alkaline phosphatase activity were also determined. A total of 34 species of AM fungi within nine genera were recorded. Compared with NT, CT negatively affected the soil AM fungal community at the maize sowing stage, leading to decreases in the average diversity indices (from 2.12, 0.79, and 0.82 to 1.79, 0.72, and 0.74 for H', E, and D, respectively), root mycorrhizal colonization (from 28% to 20%), soil alkaline phosphatase activity (from 0.24 to 0.19 mg/g/24 h) and available phosphorus concentration (from 17.4 to 10.5 mg/kg) at the maize jointing stage. However, reductions in diversity indices of H', E, and D were restored to 2.20, 0.81, and 0.84, respectively, at the maize maturation stage. CT should affect the community again at the wheat sowing stage; however, a similar restoration in the species diversity of AM fungi was completed before the wheat jointing stage, and the highest Jaccard index (0.800) for similarity in the species composition of soil AM fungi between CT and NT was recorded at the wheat maturation stage. Our results also demonstrated that NT resulted in the positive protection of the community structure of AM fungi and played an important role in maintaining their functionality especially for maize seedlings.

Published

2015

29. No tillage enhances arbuscular mycorrhizal fungal population, glomalin-related soil protein content, and organic carbon accumulation in soil macroaggregates

Author

Jue Dai, Jianfeng Bai, Xiangui Lin, Anning Zhu, Junhua Wang, and Junli Hu

Subjects

Topsoil, Conventional tillage, biology, Chemistry, Stratigraphy, Soil organic matter, Soil biology, Soil carbon, Glomalin, Tillage, Agronomy, Loam, biology.protein, Earth-Surface Processes

Abstract

Mechanisms of soil organic carbon (C) accumulation in response to no tillage (NT) are unclear. The extraradical hyphae of arbuscular mycorrhizal (AM) fungi are known to contribute to the formation and maintenance of soil aggregates through the exudation of glomalin. The objectives of this study were to evaluate the effects of different tillage management treatments on soil aggregates, AM fungal community, and glomalin contents and find out the main factors that influence aggregate C accumulation. A field experiment established in a sandy loam soil at Northern China has received 4-year continuous tillage treatments, including conventional tillage (CT), NT, and alternating tillage (AT, tillage in the wheat season and no tillage in the maize season). Undisturbed top soil samples (0–15 cm) from four individual plots per treatment were collected for the analysis of aggregates, which were separated according to the wet-sieving method. The organic C contents in different particle size aggregates were determined by the dichromate oxidization, and the glomalin-related soil protein (GRSP) was then extracted with citrate solution using bovine serum albumin (BSA) as a standard. The population size of AM fungi was determined by real-time PCR, and the community composition was analyzed using polymerase chain reaction plus denature gradient gel electrophoresis (PCR-DGGE), cloning, and sequencing techniques. Compared to CT, both NT and AT resulted in higher percentages of macroaggregates (>50 μm), and NT, rather than AT, significantly increased organic C contents in >250- and 50–2-μm aggregates, and also organic C contribution by macroaggregates. Both NT and AT significantly increased AM fungal population in 250–50-μm aggregates, but only NT increased it in >250-μm aggregates. NT, rather than AT, significantly increased easily extractable GRSP contents in 250–50- and

Published

2015

30. Proton accumulation accelerated by heavy chemical nitrogen fertilization and its long-term impact on acidifying rate in a typical arable soil in the Huang-Huai-Hai Plain

Author

Ping Huang, Congzhi Zhang, Anning Zhu, Sheng-jun Wu, Shan Yang, Jiabao Zhang, Qiang-gen Zhu, Xiuli Xin, and Dong-hao Ma

Subjects

Topsoil, Ecology, Chemistry, Nutrient management, Agriculture (General), Phosphorus, Soil acidification, pH buffer capacity (pHBC), chemistry.chemical_element, Huang-Huai-Hai Plain, Plant Science, Biochemistry, nitrification, S1-972, Nutrient, Animal science, Food Animals, Soil pH, nitrogen (N) fertilizer, Soil horizon, Animal Science and Zoology, Nitrification, soil acidification, Agronomy and Crop Science, Food Science

Abstract

Cropland productivity has been significantly impacted by soil acidification resulted from nitrogen (N) fertilization, especially as a result of excess ammoniacal N input. With decades' intensive agricultural cultivation and heavy chemical N input in the Huang-Huai-Hai Plain, the impact extent of induced proton input on soil pH in the long term was not yet clear. In this study, acidification rates of different soil layers in the soil profile (0–120 cm) were calculated by pH buffer capacity (pHBC) and net input of protons due to chemical N incorporation. Topsoil (0–20 cm) pH changes of a long-term fertilization field (from 1989) were determined to validate the predicted values. The results showed that the acid and alkali buffer capacities varied significantly in the soil profile, averaged 692 and 39.8 mmolc kg−1 pH−1, respectively. A significant (P

Published

2015

31. [Educational philosophy of acupuncture and moxibustion of

Author

Xianjun, Meng, Anning, Zhu, Zongbao, Yang, Zifang, Kuang, Yu, Wang, and Weiwei, Xu

Subjects

China, Schools, Moxibustion, Teaching, Acupuncture Therapy, Acupuncture, Humans

Abstract

Based on the historical documents regarding professor

Published

2017

32. [Present situation and development of acupuncture in the Netherlands]

Author

Anning, Zhu, Xianjun, Meng, Jun, Huang, Weiwei, Xu, and Yu, Wang

Subjects

Schools, Acupuncture Therapy, Acupuncture, Netherlands

Abstract

The development, present situation, educational institution and association, legislation and application of acupuncture therapy in the Netherlands are introduced. Acupuncture was introduced into the Netherlands about 400 years ago. At present, being one of the complementary and alternative medicine, acupuncture has not passed the national legislation yet. The nongovernmental source is given priority to the development of acupuncture and the educational institution is private. Even though acupuncture has not been listed in the basic medical insurance in the Netherlands, it becomes one of the additional items of the insurance company and its expenditure is reimbursed partially. The field of TCM in the Netherlands now is facing to the issues to be solved, including constructing the official medical institution, educating high-quality acupuncturists, promoting national legislation and adopting acupuncture into the basic medical insurance.

Published

2017

33. [The present situation and development of acupuncture and moxibustion in Taiwan]

Author

Xianjun, Meng, Anning, Zhu, Yu, Wang, and Siyu, Liu

Subjects

Schools, Moxibustion, Acupuncture Therapy, Taiwan, Humans

Abstract

The development history, present situation, educational institution and association of acupuncture and moxibustion in Taiwan are reviewed. Acupuncture and moxibustion is considered as an invasive treatment in Taiwan, which has been introduced to Taiwan since the late Ming Dynasty and early Qing Dynasty, with a history of less than 400 years. At present, there are two acupuncture-related academic institutions and two educational institutions, which are all private. The acupuncture and moxibustion is applied for various diseases, and the cost is based on whether clinics and treatments are covered by medical insurance, so the differences are significant.

Published

2017

34. [The academic characteristics of acupuncture and moxibustion of professor

Author

Weiwei, Xu, Xianjun, Meng, Anning, Zhu, Yu, Wang, Wuyougumo, Luo, and Zifang, Kuang

Subjects

China, Moxibustion, Qi, Publications, Acupuncture Therapy, Humans, Syndrome, Meridians

Abstract

Professor

Published

2017

35. Effects of electroacupuncture at auricular concha area on the circadian rhythm of melatonin secretion in p-chlorophenylalanine-induced insomnia rats

Author

WenYa Huang, WeiWei Xu, AnNing Zhu, SiYu Liu, Yang Huang, Peng Li, ZongBao Yang, ShuQiong Huang, and XianJun Meng

Published

2020

36. Coupled water and nitrogen (N) management as a key strategy for the mitigation of gaseous N losses in the Huang-Huai-Hai Plain

Author

Congzhi Zhang, Donghao Ma, Shengjun Wu, Xiuli Xin, Jiabao Zhang, Zakaria A. Mirza, Shan Yang, Ping Huang, and Anning Zhu

Subjects

Irrigation, Denitrification, Soil Science, Growing season, chemistry.chemical_element, Ammonia volatilization from urea, Microbiology, Nitrogen, Ammonia, chemistry.chemical_compound, Agronomy, chemistry, Soil water, Environmental science, Relative humidity, Agronomy and Crop Science

Abstract

Gaseous nitrogen (N) losses are mainly responsible for low N use efficiency of applied fertilizers and their derivative environmental hazards, while N application rates and soil water regime are important factors regulating these N processes. In this study, gaseous N losses via ammonia volatilization (AV) and denitrification, determined by sponge trapping-KCl extraction and acetylene inhibition-soil core incubation, respectively, were investigated under different coupled water-N management practices with a winter wheat (Triticum aestivum L.) and summer maize (Zea mays L.) rotation system in the Huang-Huai-Hai Plain. Ammonia volatilization after urea application, particularly after topdressing during maize growing seasons, was the dominant gaseous N loss, amounting up to 53.2 kg N ha−1 (38.6 % of the applied N). Ammonia volatilization generally decreased by increasing irrigation rate applied immediately after fertilization. Denitrification N losses were lower than ammonia-N losses, accounting for 1.3 to 18.7 kg N ha−1 year−1, with more than 90 % occurring during the maize growing seasons. Total gaseous N losses showed a significant (P

Published

2014

37. Use of the open-path TDL analyzer to monitor ammonia emissions from winter wheat in the North China Plain

Author

Xiao-Min Chen, Xin Shu, Xiao-Hui Xu, Anning Zhu, Wenliang Yang, and Jiabao Zhang

Subjects

Hydrology, Spectrum analyzer, Daytime, Winter wheat, North china, Soil Science, Ammonia volatilization from urea, Atmospheric sciences, Wind speed, Ammonia, chemistry.chemical_compound, chemistry, Agronomy and Crop Science, Diel vertical migration

Abstract

The backward Lagrangian stochastic (BLS) model and open-path tunable diode laser (OPTDL) analyzer were used to monitor ammonia (NH3) emissions from urea applied to winter wheat in the North China Plain. The high-temporal resolution measurements of ammonia concentrations provided an opportunity for estimating the diel patterns of ammonia emissions, as well as valuable information about the factors that influence NH3 emissions. The results showed both large diel variability and daily variability in NH3 volatilization, with NH3 emissions highest during the daytime. The diel pattern of ammonia volatilization depended mainly on the diel variation of wind speed and soil temperature, while the overall pattern of NH3 loss was strongly affected by soil moisture content, soil NH4 +-N concentration, wind speed and soil temperature. At the end of the measurement period, the cumulative NH3 loss was 12.21–16.43 kg N ha−1, calculated based on different time scale average Q BLS. Due to sensitivity of the OPTDL analyzer, the estimated total ammonia loss was still doubtful in this study.

Published

2014

38. Application of 31P NMR spectroscopy in determining phosphatase activities and P composition in soil aggregates influenced by tillage and residue management practices

Author

Zhenhua Chen, Lijun Chen, Jiabao Zhang, Kai Wei, and Anning Zhu

Subjects

Crop residue, Residue (complex analysis), Conventional tillage, Field experiment, Phosphatase, Soil Science, Phosphate, Tillage, chemistry.chemical_compound, chemistry, Agronomy, Composition (visual arts), Agronomy and Crop Science, Earth-Surface Processes

Abstract

Soil phosphorus (P) composition and phosphatase activities in aggregates are essential for agricultural productivity and remain poorly understood. A field experiment was conducted from 2007 to study the effect of tillage systems (conventional tillage, T and no tillage, NT) and crop residue management (0, 50% and 100% crop residue incorporation/coverage) on P composition determined by 31 P nuclear magnetic resonance (NMR) and phosphatase activities in soil aggregates (>2 mm, 0.25–2 mm and 0.053–0.25 mm). The results showed that crop residue input influenced the concentrations of soil phosphate monoesters and diesters, alkaline phosphomonoesterase (AlP), acid phosphomonoesterase (AcP), phosphodiesterase (PD) activities, and soil aggregate stability significantly, and the addition of crop residue was significantly more effective than tillage. The NT had significantly higher soil phosphatase activities than tillage treatment but not more soil P content. The 0.25–2 mm aggregates showed higher total P, organic P, concentrations of monoesters and diesters, and AlP activity. The structure equation model showed that soil aggregate stability could increase concentrations of monoesters and diesters indirectly by its direct effects on soil phosphatases. Our results suggest that NT and crop residue input could increase the P store and sustainable supply in soil aggregates and that the 0.25–2 mm size aggregates may play an important role in soil organic P maintenance and transformation.

Published

2014

39. No-tillage did not increase organic carbon storage but stimulated N2O emissions in an intensively cultivated sandy loam soil: A negative climate effect

Author

Zengming Chen, Weixin Ding, Jiafa Luo, Yuhui Niu, Hong J. Di, Hongyan Yu, Anning Zhu, and Yanjiang Cai

Subjects

Irrigation, Conventional tillage, Denitrification, Soil Science, 04 agricultural and veterinary sciences, Carbon sequestration, Tillage, Agronomy, Loam, Soil water, 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, Environmental science, Cropping system, Agronomy and Crop Science, Earth-Surface Processes

Abstract

Although numerous studies have been conducted on the effects of no-tillage on carbon (C) sequestration in agricultural systems, there is still no consensus on the balance between the potential of C sequestration and nitrous oxide (N2O) or nitric oxide (NO) emissions. A no-tillage field experiment in the North China Plain was established in 2006 and the influence of no-tillage on N2O and NO emissions was monitored under an annual wheat-maize cropping system. The study included four treatments: no-tillage (NT) and conventional tillage (CT) soils amended with N fertilizer at a rate of 225 kg N ha–1 for wheat and 195 kg N ha–1 for maize (NTN and CTN) and without N fertilizer (NT0 and CT0). Three years of no-tillage significantly (p

Published

2019

40. Effects of Tillage Mangement on Microbiological Characteristics Related to Transformation of Carbon, Nitrogen, and Phosphrous in Luvo-aquic Soil

Author

Jun-Li Hu, Anning Zhu, Juntao Wang, Jue Dai, Xiangui Lin, Jing Li, and Junhua Wang

Subjects

Tillage, Transformation (genetics), Carbon nitrogen, Agronomy, Genetics, Environmental science, Pollution, Agronomy and Crop Science, Applied Microbiology and Biotechnology

Published

2013

41. Soil microbial metabolism and invertase activity under crop rotation and no-tillage in North China

Author

Ruirui Chen, Anning Zhu, J. Dai, J. H. Wang, Jun-Tao Wang, Xiangui Lin, and J. L. Hu

Subjects

Conventional tillage, Soil test, Microbial metabolism, Soil Science, Biomass, 04 agricultural and veterinary sciences, 010501 environmental sciences, Biology, Crop rotation, biology.organism_classification, complex mixtures, 01 natural sciences, Tillage, Agronomy, Seedling, Loam, 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, 0105 earth and related environmental sciences

Abstract

Soil samples were collected at both jointing and maturing stages of maize and wheat to compare the effects of 4-year no-tillage (NT) and conventional tillage (CT) on seasonal variations of microbial biomass carbon (C), metabolic quotient, and invertase activity in a sandy loam soil in North China. Soil invertase activity significantly increased (P < 0.05) from summer to spring of the next year and then significantly decreased ( P < 0.05) from spring to summer. With a delay of about 3 months, soil microbial biomass C and basal respiration altered in a similar pattern, while microbial metabolic quotient changed on the contrary. Compared with CT, the NT practice significantly increased (P < 0.05) soil organic C content, and tended to result in higher soil microbial biomass C and invertase activity, as well as lower soil microbial metabolic quotient, especially at the jointing stage of maize. Our results indicated that NT might play an important role in the improvement of soil microbial efficiency, especially at the maize seedling season.

Published

2013

42. Application of a high-temporal resolution method to estimate ammonia emissions from farmland

Author

Jiabao Zhang, Wenliang Yang, Yujun Zhang, Ying He, Anning Zhu, Xiao-Hui Xu, Xiao-Min Chen, and Chen Wenchao

Subjects

Hydrology, Tunable diode laser absorption spectroscopy, Field (physics), Chemistry, Position (vector), Temporal resolution, Dispersion (optics), Atmospheric instability, Soil Science, Wind direction, Atmospheric sciences, Agronomy and Crop Science, Plume

Abstract

A viable method—open-path tunable diode laser absorption spectroscopy (OPTDL) in conjunction with a backward Lagrangian stochastic (bLS) dispersion model—has been used for micrometeorological monitoring of ammonia fluxes. In this technique, the gas concentration measured with the OPTDL sensor is used to infer the surface emission rate with the aid of dispersion model calculations. On the basis of numerous assessment experiments and field trials, several beneficial strategies for using the OPTDL technique properly to monitor atmospheric NH3 concentrations in the field have been summarized. Theoretically, the location of the concentration measurement can be anywhere in the emission plume, but in practice, the concentration measurement position must be carefully selected to avoid making measurements which are on the periphery of the downwind plume or are affected by obstructions. To obtain accurate estimates, periods with low friction velocity or extreme atmospheric stability, where Monin–Obukhov similarity theory-based relationships are invalid, or unrepresentative estimates due to unsuitable wind direction, should be excluded. A validation experiment showed that there was no significant difference between the ammonia emission rates obtained by the micrometeorological mass balance method and those obtained by the bLS model combined with the OPTDL technique. This study also indicated the potential of the bLS and OPTDL technique for investigation of diurnal emission patterns and environmental influences.

Published

2013

43. An inverse dispersion technique for the determination of ammonia emissions from urea-applied farmland

Author

Ying He, Anning Zhu, Li-ming Wang, Xiao-Min Chen, Wenliang Yang, Yujun Zhang, and Jiabao Zhang

Subjects

Atmospheric Science, Analytical chemistry, Inverse, Diurnal change, Gas concentration, Ammonia, chemistry.chemical_compound, Ammonia emission, symbols.namesake, chemistry, symbols, Urea, Dispersion (chemistry), Lagrangian, General Environmental Science

Abstract

A backward Lagrangian stochastic (BLS) model for estimating ammonia emission in the field, utilizing data from ammonia concentration measurements by the open-path tunable diode laser method, was assessed by comparing it with the benchmark provided by simultaneous monitoring by the micrometeorological mass balance (MMB) technique. The results indicated that after rejecting data with u* ≤ 0.15 m s−1 or |L| < 10 m, the ammonia emissions derived by the BLS model were very similar to those by MMB (regression gradient = 0.966, R2 = 0.959). The BLS model was also compared with the static chamber (SC) method of monitoring changes in gas concentration (enrichment/depletion) over time; it was found that these methods yielded significantly different results for both diurnal ammonia fluctuations and total ammonia loss. The results also showed that the mean time had little effect on the accuracy of the BLS method, but a short averaging time was preferable when investigating diurnal change of ammonia emissions.

Published

2013

44. [Experience of CHEN Yingloni treating common diseases in Fujian and Taiwan with acupuncture and medication]

Author

Xiaohong, Deng, Xianjun, Meng, Anning, Zhu, Weiwei, Xu, and Yingloni, CHEN

Subjects

Acupuncture Therapy, Taiwan, Humans, History, 20th Century, Acupuncture Points, Constipation, Asthma

Abstract

With literature of professor CHEN Yinglong such as Medical Notes of Doctor CHEN Yinglongfor Taiwan Compatriots,the'experience of doctor CHEN Yinglong treating common diseases in Fujian and Tai-wan is summarized. The diseases in the paper are constipation, retention of urine, asthma, vec6rdia, bi syndromeinsomnia, thoracic obstruction, pediatric obesity and freckle of face, etc. It is discovered that professor CHENYinglong treated diseases with combination of acupuncture and medication and accurate acupoints according to thefeature of climate in Fujian and Taiwan.

Published

2016

45. Arbuscular mycorrhizal fungal community structure and diversity in response to 3-year conservation tillage management in a sandy loam soil in North China

Author

Anna Yang, Jue Dai, Xiangui Lin, Junli Hu, Anning Zhu, Ming Hung Wong, and Junhua Wang

Subjects

Conventional tillage, Agroforestry, Stratigraphy, fungi, Community structure, Soil carbon, Tillage, Soil management, No-till farming, Mulch-till, Agronomy, Loam, Environmental science, Earth-Surface Processes

Abstract

Purpose Modern agricultural science has greatly reduced the use of tillage. Monitoring conservation versus conventional tillage effects on soil microbes could improve our understanding of soil biochemical processes and thus help us to develop sound management strategies. The objective of this study was to investigate the effects of conservation tillage on the spore community structure and the diversity of soil arbuscular mycorrhizal (AM) fungi and to find out the main factors that influence these parameters.

Published

2012

46. Effects of tillage and residue management on soil nematode communities in North China

Author

Xiaoke Zhang, Qi Li, Jiabao Zhang, Anning Zhu, Yosef Steinberger, and Wenju Liang

Subjects

Tillage, Bacterivore, Conventional tillage, Ecology, Agronomy, Canonical correspondence analysis, General Decision Sciences, Soil food web, Dominance (ecology), Biology, Ecology, Evolution, Behavior and Systematics, Food web, Trophic level

Abstract

Soil nematode abundance, community composition and biomass were determined in the Fengqiu State Key Agro-Ecological Experimental Station, North China, in order to evaluate the effects of tillage system (conventional tillage and no-tillage) and residue management (0, 50% and 100% wheat residue incorporation/coverage) on the nematode communities. Two kinds of indicators (descriptive and evaluative) were categorized. Of the descriptive indicators, residue management had a significant effect on the total nematode abundance, biomass and trophic groups except for bacterivores. Of the evaluative indicators, Shannon diversity (H′), generic richness (GR), nematode channel ratio (NCR) and enrichment index (EI) significantly increased with increasing residue quantity, whereas dominance (λ), basal index (BI) and channel index (CI) exhibited an opposite trend. Significant tillage effects were observed on the trophic diversity (TD), EI, CI and carbon production (P). The responses of nematodes to tillage and residue were genus-dependent. Canonical correspondence analysis indicated that tillage explained 4.9% and 15.4%, and residue management explained 5.2% and 13.1% of the variations in soil nematode abundance and biomass, respectively. Different metabolic footprint characteristics of the food web were demonstrated graphically by enrichment and structure footprints. The evaluative indicators, such as EI and CI, were sensitive to both tillage and residue management. The descriptive indicators could be used to obtain an intuitive answer to the effect of residue management and the evaluative indicators were more comprehensive for interpreting the structure and function of the soil food web under different tillage and residue management regimes.

Published

2012

47. Effects of tillage and residue management on soil microbial communities in North China

Author

Xiaoke Zhang, H. W. Zhang, J. J. Wang, Wenju Liang, Anning Zhu, and X. Y. Li

Subjects

Crop residue, Conventional tillage, biology, Chemistry, Soil organic matter, Soil Science, 04 agricultural and veterinary sciences, Soil carbon, 010501 environmental sciences, biology.organism_classification, 01 natural sciences, Arbuscular mycorrhiza, Tillage, Soil conditioner, Agronomy, Microbial population biology, 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, 0105 earth and related environmental sciences

Abstract

The impacts of tillage system (conventional tillage and no-tillage) and residue management (0, 50, and 100%) on soil properties and soil microbial community structure were determined in the Fengqiu State Key Agro-Ecological Experimental Station, North China. The microbial community structure was investigated by phospholipid fatty acid (PLFA) profiles. The results showed that tillage had significant effects on soil properties and soil microbial commu nities. In no-tillage (NT), microbial biomass carbon (MBC), total N, microbial biomass carbon/soil organic carbon (MBC/SOC), total microbes, and arbuscular mycorrhiza fungi increased, while actinomycetes, G + /G – bacteria ratio and monounsaturated fatty acids/saturated fatty acids (MUFA/STFA) decreased, compared with those in conventional tillage (CT). Residue had a significant positive effect on C/N ratio and MUFA/STFA. Canonical correspon dence analysis indicated that tillage explained 76.1%, and residue management explained 0.6% of the variations in soil microbial communities, respectively. Soil microbial communities were significantly correlated with MBC, total N, C/N ratio and MBC/SOC. Among the six treatments, NT with 100% residue application obviously improved soil microbiological properties, and could be a proper management practice in the Huang-Huai-Hai Plain of China.

Published

2012

48. Coupling a two-tip linear mixing model with a δD–δ18O plot to determine water sources consumed by maize during different growth stages

Author

Bingzi Zhao, Anning Zhu, Xiaopeng Li, Hui Zhang, Ping Huang, Jiabao Zhang, and Congzhi Zhang

Subjects

Hydrogen, δ18O, Field experiment, Water source, Mixing (process engineering), Soil Science, chemistry.chemical_element, Soil science, Plot (graphics), Isotopes of oxygen, Coupling (physics), chemistry, Botany, Environmental science, Agronomy and Crop Science

Abstract

Linear mixing models and δ D– δ 18 O plots with stable hydrogen and oxygen isotopes have been widely used to identify water sources consumed by various plants; however, each of these methods is incapable of quantifying the contribution of different water sources used if more than three sources exist simultaneously. In this study, we developed a coupled model to solve this problem and applied it to determine the contribution of various water sources to maize during different growth stages. A field experiment was conducted from June 5 to September 12, 2007. The results revealed that primary water sources for maize varied with growth stages, and that generally more water from deeper depths was used as the plants grew. Additionally, calculation of the coupled model was in accordance with the linear mixing model, which indicated that the coupled model could enable the successful identification of various water sources that contribute the total water used by plants.

Published

2011

49. Surface soil phosphorus and phosphatase activities affected by tillage and crop residue input amounts

Author

Anning Zhu, Lijun Chen, Zhenhua Chen, J.B. Wang, and Z. J. Wu

Subjects

Crop residue, Conventional tillage, biology, Chemistry, Phosphatase, Acid phosphatase, Soil Science, 04 agricultural and veterinary sciences, 010501 environmental sciences, 01 natural sciences, Enzyme assay, Tillage, Animal science, Agronomy, Soil water, 040103 agronomy & agriculture, biology.protein, 0401 agriculture, forestry, and fisheries, Alkaline phosphatase, 0105 earth and related environmental sciences

Abstract

The effects of tillage and residue input amounts on soil phosphatase (alkaline phosphomonoesterase ALP, acid phosphomonoesterase ACP, phosphodiesterase PD, and inorganic pyrophosphatase IPP) activities and soil phosphorus (P) forms (total P, organic P, and available P) were evaluated using soils collected from a three-year experiment. The results showed that no-till increased soil total and organic P, but not available P as compared to conventional tillage treatments. Total P was increased as inputs of crop residue increased for no-till treatment. There were higher ALP and IPP activities in no-till treatments, while higher PD activity was found in tillage treat ments and tillage had no significant effect on ACP activity. Overall phosphatase activities increased with an in crease of crop residue amounts. Soil total P was correlated negatively with PD activity and positively with other phosphatase activities. Organic P had a positive correlation with ACP activity, but a negative correlation with PD activity. Available P had no significant correlation with phosphatase activities. Our data suggests that no-till and residue input could increase soil P contents and enhance the activities of phosphatase.

Published

2011

50. Atmospheric deposition as an important nitrogen load to a typical agroecosystem in the Huang-Huai-Hai Plain. 1. Measurement and preliminary results

Author

Jiabao Zhang, Congzhi Zhang, Ping Huang, Anning Zhu, Xiuli Xin, and Donghao Ma

Subjects

Hydrology, Agroecosystem, Atmospheric Science, Deposition (aerosol physics), Distilled water, Chemistry, Environmental chemistry, engineering, chemistry.chemical_element, Fertilizer, engineering.material, Nitrogen, General Environmental Science

Abstract

Atmospheric nitrogen (N) deposition has been widely considered as an important N input into agroecosystems, but its measurement involves considerable uncertainties with various methods. In this study, a field sampler with distilled water as a surrogate surface was developed and trialed for the collection of dry and wet N deposition. The direct measuring results were compared with the value calculated by the N mass balance method (crop N uptake from plots receiving no N fertilizers of the long-term fertilization experiment in the monitoring station). The results indicated that exposure durations of 3–5 days and water volumes of 2000–2800 ml were tested to be suitable to collect dry N deposition, while water volumes of less than 1000 ml and sampling conducted immediately after rain event were found to be appropriate for wet N collection under the present experimental conditions. The monitoring work was conducted from June 2008 to May 2009, and annual N deposition totaled up to 40.32 kg N ha −1 , of which dry deposition accounted for 62.45%. NH 4 –N was the dominant species in N deposition and contributed 62.68% and 66.00% to wet and dry deposition, respectively. Organic N (O-N) was found to make greater contributions than NO 3 –N in both dry and wet depositions. Total N deposition was parallel to the results estimated by the method of mass N balance from the long-term experiment, as 45.6 kg N ha −1 . These results provide helpful knowledge to elucidate the N deposition scenario of a typical agroecosystem and can be of great importance for the calculation of fertilizer recommendations in the Huang-Huai-Hai Plain.

Published

2011