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国家自然科学基金(41373084)

作品数:6 被引量:85H指数:5
相关作者:彭琴贺云龙董云社郭树芳齐玉春更多>>
相关机构:中国科学院中国科学院大学新疆农垦科学院更多>>
发文基金:国家自然科学基金公益性行业(农业)科研专项中国科学院知识创新工程重要方向项目更多>>
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外源碳输入对陆地生态系统碳循环关键过程的影响及其微生物学驱动机制被引量:25
2017年
外源碳输入对土壤碳源可利用性的改变不仅直接影响着微生物参与陆地生态系统的碳循环过程,而且也制约着微生物对其它营养元素的需求。在大气氮沉降持续增加的全球变化背景下,部分地区已出现生态系统氮养分条件的显著变化甚至土壤中活性氮素的过量积累,进而带来微生物对碳源需求的增加。通过人为调控碳源的可利用性,改善微生物的碳限制状况,将对科学的增加陆地生态系统固碳能力具有极为重大的意义。综述了国内外有关外源碳输入对土壤碳排放、凋落物分解以及土壤碳库影响及其主要的微生物作用机制的相关研究结果,以期能够为未来氮沉降持续增加情景下,如何科学有效地提高生态系统的碳汇潜力提供一定的参考。
贺云龙齐玉春彭琴董云社郭树芳闫钟清王丽芹李兆林
关键词:碳循环
不同退化程度羊草草原碳收支对模拟氮沉降变化的响应被引量:13
2015年
2009~2010年,选择内蒙古温带典型草原区2个不同退化程度羊草群落为研究对象,利用小区模拟控制试验,设置0g·(m2·a)-1(CK)、10 g·(m2·a)-1(MN)这2个氮处理水平,模拟研究了大气氮沉降水平变化对植物净初级生产力(NPP),土壤呼吸(Rs)以及整个群落碳收支(NEE)的定量影响,比较了不同退化程度草地群落NEE对等量氮添加的响应差异.结果表明,对于轻度退化羊草草原(样地A),MN处理生长季平均地上生物量(AGB)两年分别比CK增加21.5%及46.8%,而对于中度退化羊草草原(样地B),氮添加在2009年降低了植物AGB及地上NPP(ANPP),在2010年则表现为正效应;两年氮添加均增加了样地A与样地B的根系生物量(BGB)以及样地B的地下NPP(BNPP),但降低了2010年样地A的BNPP;氮输入增加并未明显改变Rs的时间变化规律.与CK处理相比,样地A的MN处理两年土壤微生物呼吸年累积通量较CK分别增加了14.6%与25.7%,而样地B则分别降低了10.4%与11.3%;样地A与样地B两年均表现为大气的碳汇,碳汇强度(以碳计)分别为59.22 g·(m2·a)-1与166.68 g·(m2·a)-1以及83.27 g·(m2·a)-1与117.47 g·(m2·a)-1.相对于CK,样地A两年碳汇增加量分别为15.79 g·(m2·a)-1与82.94 g·(m2·a)-1,样地B分别为74.54 g·(m2·a)-1与101.23 g·(m2·a)-1,单位氮输入量在初始氮水平低的草地群落能获得更大的增汇效应.
齐玉春彭琴董云社肖胜生贾军强郭树芳郭树芳闫钟清贺云龙
关键词:羊草草原不同退化程度氮沉降净初级生产力碳收支
Interactions of water and nitrogen addition on soil microbial community composition and functional diversity depending on the inter-annual precipitation in a Chinese steppe被引量:10
2015年
Water and nitrogen are primary limiting factors in semiarid grassland ecosystems. Our knowledge is still poor regarding the interactive effects of water and N addition on soil microbial communities, although this information is crucial to reveal the mechanisms of the terrestrial ecosystem response to global changes. We addressed this problem by conducting a field experiment with a 15% surplus of the average rainfall under three levels of N addition(50, 100, and 200 kg N ha–1 yr–1) in two consecutive years in Inner Mongolia, China. Microbial community composition and functional diversity were analyzed based on phospholipid fatty acids(PLFA) and BIOLOG techniques, respectively. The results showed that water addition did not affect the soil microbial community composition, but much more yearly precipitation generally decreased the PLFA concentration, which implied a fast response of soil microbes to changes of water condition. Soil fungi was depressed only by N addition at the high level(200 kg N ha–1 yr–1) and without hydrologic leaching, while Gram-negative bacteria was suppressed probably by plant competition at high level N addition but with hydrologic leaching. The study found unilateral positive/negative interactions between water and N addition in affecting soil microbial community, however, climate condition(precipitation) could be a significant factor in disturbing the interactions. This study highlighted that:(1) The sustained effect of pulsed water addition was minimal on the soil microbial community composition but significant on the microbial community functional diversity and(2) the complex interaction between water and N addition on soil microbial community related to the inter-annual variation of the climate and plant response.
SUN Liang-jieQI Yu-chunDONG Yun-sheHE Ya-tingPENG QinLIU Xin-chaoJIA Jun-qiangGUO Shu-fangCAO Cong-cong
不同灌溉方式对华北平原冬小麦田土壤CO2和N2O排放通量的影响被引量:18
2016年
节水灌溉是现代农业的发展趋势,为研究节水灌溉措施对农田土壤温室气体排放的影响,采用静态箱暗箱法研究了微喷水肥一体化(微喷)与传统漫灌方式下华北平原西部2013~2014年冬小麦田土壤CO_2及N_2O排放通量的变化特征及微喷方式下垂直微喷管不同距离的3个空间位置土壤CO_2、N_2O排放通量的空间变化.利用根排除法分析土壤呼吸组分,并估算不同灌溉方式下农田碳收支状况.结果表明:1微喷与漫灌方式下小麦田土壤CO_2排放通量平均值分别为418.19mg·(m^2·h)^(-1)和372.14 mg·(m^2·h)^(-1),两种灌溉方式间CO_2排放通量无显著差异,累积排放量分别为2 150.6 g·m^(-2)及1 904.6 g·m^(-2).2返青期-成熟期微喷方式下距离微喷管不同距离的3个位置土壤CO_2累积排放量表现为距离微喷管近的土壤CO_2排放量最大,但无明显差异.3微喷和漫灌方式下,小麦生长季土壤异养呼吸排放量(以C计)分别为468.49 g·m^(-2)和427.31 g·m^(-2),净初级生产力(以C计)分别为1 988.21 g·m^(-2)和1 770.54 g·m^(-2),生长生育期小麦田碳汇(以C计)分别为1 519.72 g·m^(-2)和1 343.24 g·m^(-2).4微喷与漫灌处理小麦生长季土壤N_2O排放通量的平均值分别为50.77μg·(m^2·h)^(-1)和28.81μg·(m^2·h)^(-1),两种灌溉方式间N_2O排放通量无显著差异,累积排放量分别为272.67 mg·m^(-2)及154.08 mg·m^(-2).5小麦返青期-成熟期微喷方式下3个空间位置土壤N_2O排放通量表现为距离微喷管越远,N_2O累积排放量越小,但处理间无显著性差异.可见,小麦田由传统漫灌转变为微喷节水灌溉后,农田土壤CO_2和N_2O排放通量均有增加,但农田碳汇强度也增加了.
郭树芳齐玉春尹飞虎彭琴董云社贺云龙闫钟清
Influences of drip and flood irrigation on soil carbon dioxide emission and soil carbon sequestration of maize cropland in the North China Plain被引量:5
2017年
The need is pressing to investigate soil CO2 (carbon dioxide) emissions and soil organic carbon dynamics under water-saving irrigation practices in agricultural systems for exploring the potentials of soil carbon sequestration. A field experiment was conducted to compare the influences of drip irrigation (DI) and flood irrigation (FI) on soil organic carbon dynamics and the spatial and temporal variations in CO2 emissions during the summer maize growing season in the North China Plain using the static closed chamber method. The mean CO2 efflux over the growing season was larger under DI than that under FI. The cumulative CO2 emissions at the field scale were 1959.10 and 1759.12 g/m2 under DI and FI, respectively. The cumulative CO2 emission on plant rows (OR) was larger than that between plant rows (BR) under FI, and the cumulative CO2 emission on the irrigation pipes (OP) was larger than that between irrigation pipes (BP) under DI. The cumulative CO2 emissions of OP, BP and bare area (BA) under DI were larger than those of OR, BR and BA under FI, respectively. Additionally, DI promoted root respiration more effectively than FI did. The average proportion of root respiration contributing to the soil CO2 emissions of OP under DI was larger than that of OR under FI. A general conclusion drawn from this study is that soil CO2 emission was significantly influenced by the soil water content, soil temperature and air temperature under both DI and FI. Larger concentrations of dissolved organic carbon (DOC), microbial biomass carbon (MBC) and total organic carbon (TOC) were observed under FI than those under DI. The observed high concentrations (DOC, MBC, and TOC) under FI might be resulted from the irrigation-associated soil saturation that in turn inhibited microbial activity and lowered decomposition rate of soil organic matter. However, DI increased the soil organic matter quality (the ratio of MBC to TOC) at the depth of 10-20 cm compared with FI. Our results sugge
GUO ShufangQI YuchunPENG QinDONG YunsheHE YunlongYAN ZhongqingWANG Liqin
Differential responses of short-term soil respiration dynamics to the experimental addition of nitrogen and water in the temperate semi-arid steppe of Inner Mongolia, China被引量:19
2014年
We examined the effects of simulated rainfall and increasing N supply of different levels on CO2 pulse emission from typical Inner Mongolian steppe soil using the static opaque chamber technique, respectively in a dry June and a rainy August. The treatments included NH4NO3 additions at rates of 0, 5, 10, and 20 g N/(m2.year) with or without water. Immediately after the experimental simulated rainfall events, the CO2 effluxes in the watering plots without N addition (WCK) increased greatly and reached the maximum value at 2 hr. However, the efflux level reverted to the background level within 48 hr. The cumulative CO2 effluxes in the soil ranged from 5.60 to 6.49 g C/m2 over 48 hr after a single water application, thus showing an increase of approximately 148.64% and 48.36% in the efftuxes during both observation periods. By contrast, the addition of different N levels without water addition did not result in a significant change in soil respiration in the short term. Two-way ANOVA showed that the effects of the interaction between water and N addition were insignificant in short-term soil COz efftuxes in the soil. The cumulative soil CO2 fluxes of different treatments over 48 hr accounted for approximately 5.34% to 6.91% and 2.36% to 2.93% of annual C emission in both experimental periods. These results stress the need for improving the sampling frequency after rainfall in future studies to ensure more accurate evaluation of the grassland C emission contribution.
Yuchun QiXinchao LiuYunshe DongQin PengYating HeLiangjie SunJunqiang JiaCongcong Cao
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