红壤稻田土壤理化及生物学性状的动态变化特征   总被引：7，自引：0，他引：7  

LI Zhong-Pei  ZHANG Tao-Lin  LI De-Cheng  B. VELDE  HAN Feng-Xiang 《土壤圈》2005,15(1):110-119

Rice production plays a crucial role in the food supply of China and a better understanding of the changes in paddy soil fertility and the management effects is of practical importance for increasing rice productivity. In this study, field sampling in a typical red soil region of subtropical China, Jiangxi Province, was used to observe changes in the soil physical, chemical, and biological properties in a cultivation chronosequence of paddy fields. After cultivation, clay (< 0.002 mm) content in the soil, which was 39% in the original uncultivated wasteland, decreased, to 17% in the 80-year paddy field, while silt (0.02--0.002 mm) content increased. Additionally, macroporosity increased and pore shapes became more homogeneous. Soil Ph generally increased. Soil organic C and total N content of the 0-10 cm layer increased from 4.58 and 0.39 g kg-1 to 19.6 and 1.62 g kg-1, respectively in the paddy fields after 30-year cultivation and then remained stable. Soil total P content increased from 0.5 to 1.3 g kg-1 after 3 years of rice cultivation, indicating that application of phosphate fertilizer could accelerate phosphorous accumulation in the soil. Total K content in the 0--10 cm soil layer for the 80-year paddy fields decreased by 28% compared to that of the uncultivated wasteland land. Total Fe and free Fe contents declined with years of cultivation. The bacterial population increased and urease activity noticeably intensified after years of cultivation. In this chronosequence it appeared that it took 30 years to increase soil fertility to a relatively constant value that was seen after 80 years of cultivation.  相似文献   

红壤水稻土肥力性状的演变特征   总被引：23，自引：0，他引：23  

李忠佩  李德成  张桃林  陈碧云  尹瑞玲  施亚琴 《土壤学报》2003,40(6):870-878

大田条件下 ,通过选点采样分析 ,研究了不同利用年限红壤水稻土的物理、化学和生物学性质的动态变化特征。荒地红壤水耕利用后 ,土壤颗粒组成呈现规律性变化 ,粘粒 (<0 0 0 2mm)含量从荒地红壤的 3 9%下降到 80a稻田土壤的 1 7% ,而粉砂 (0 0 2～ 0 0 0 2mm)含量升高。土壤pH一般增加 0 5～ 1个单位 ;0～ 1 0cm土壤有机碳和全氮含量从荒地红壤的 4 5 8gkg- 1和 0 3 9gkg- 1增加到 3 0a红壤稻田的1 9 6gkg- 1和 1 62gkg- 1,其后 ,即使利用时间长达 80a ,土壤有机碳和全氮含量并没有显著差异 ;土壤全磷含量 ,经 3a水耕利用后可从荒地红壤的 0 5gkg- 1提高到 1 3gkg- 1,表明通过施肥可使红壤磷素快速积累 ;而在水耕利用过程中 ,红壤稻田土壤的钾素含量呈下降趋势 ,经 80a利用的红壤稻田 ,0～ 1 0cm土壤钾素含量仅为荒地红壤的 80 % ;全铁和游离铁的含量也呈下降趋势。随着水耕熟化过程 ,细菌数量和脲酶活性也明显升高。不同利用年限红壤稻田土壤的各项性状指标的变化结果还表明 ,荒地红壤水耕利用后要达到高度熟化的稻田土壤肥力水平 ,需要经过 3 0a的时间  相似文献   

中国亚热带稻田土壤碳氮含量及矿化动态   总被引：9，自引：0，他引：9  

LI Zhong-Pei  ZHANG Tao-Lin  HAN Feng-Xiang  P. FELIX-HENNINGSEN 《土壤圈》2005,15(5):554-562

Dynamics of soil organic matter in a cultivation chronosequence of paddy fields were studied in subtropical China. Mineralization of soil organic matter was determined by measuring CO2 evolution from soil during 20 days of laboratory incubation. In the first 30 years of cultivation, soil organic C and N contents increased rapidly. After 30 years, 0-10 cm soil contained 19.6 g kg^-1 organic C and 1.62 g kg^-1 total N, with the corresponding values of 18.1 g kg^-1 and 1.50 g kg^-1 for 10-20 cm, and then remained stable even after 80 years of rice cultivation. During 20 days incubation the mineralization rates of organic C and N in surface soil （0-10 cm） ranged from 2.2% to 3.3% and from 2.8% to 6.7%, respectively, of organic C and total N contents. Biologically active C size generally increased with increasing soil organic C and N contents. Soil dissolved organic C decreased after cultivation of wasteland to 10 years paddy field and then increased. Soil microbial biomass C increased with number of years under cultivation, while soil microbial biomass N increased during the first 30 years of cultivation and then stabilized. After 30 years of cultivation surface soil （0-10 cm） contained 332.8 mg kg^-1 of microbial biomass C and 23.85 mg kg^-1 of microbial biomass N, which were 111% and 47% higher than those in soil cultivated for 3 years. It was suggested that surface soil with 30 years of rice cultivation in subtropical China would have attained a steady state of organic C content, being about 19 g kg^-1.  相似文献   

红壤稻田土壤有机质的积累过程特征分析   总被引：38，自引：6，他引：38  

李忠佩  张桃林  陈碧云  尹瑞龄  施亚琴 《土壤学报》2003,40(3):344-352

通过田间采样分析 ,研究了不同利用年限红壤稻田土壤有机质含量的变化及其过程和机理 ,确定达到平衡状态时红壤稻田土壤的有机碳含量水平。结果表明 ,在水耕条件下 ,土壤有机碳和全氮的积累过程可大致分为快速增长和趋于稳定阶段 ,水耕利用 30年 ,0～ 2 0cm土壤有机碳含量达到 2 0gkg- 1,全氮含量 1 6gkg- 1,随后 ,即使利用年限长达 80年 ,土壤有机碳和全氮含量变化趋于稳定 ,没有显著提高。 2 0天的培养期内 ,不同利用年限红壤稻田 0～ 1 0cm土层有机碳和有机氮的矿化率分别为 2 2 %～3 3%和 2 8%～ 6 7% ;总体来说 ,有机碳、氮的矿化率随红壤水稻土的熟化过程而升高。随着利用年限的增加 ,微生物生物量碳一直保持增加的趋势 ,而微生物生物量氮在利用 30年后其增加趋势明显趋缓 ;利用30年的红壤稻田 ,0～ 1 0cm土壤微生物生物量C、N为 332 8mgkg- 1和 2 3 85mgkg- 1,比利用 3年分别高1 1 1 %和 4 7%。与利用 3年的红壤稻田相比 ,利用 30年后细菌数量增加了 1 1倍 ( 0～ 1 0cm)和 3 8倍 ( 1 0～2 0cm) ,利用 80年后更显著地增加了 1 9倍 ( 0～ 1 0cm)和 1 2倍 ( 1 0～ 2 0cm) ;真菌的数量也呈上升的趋势 ,但在 30年利用后基本趋于稳定 ;此外 ,细菌的群落从荒草地的 4个种到 30～ 80年水田  相似文献   

Organic carbon accumulation in a 2000-year chronosequence of paddy soil evolution     

Livia Wissing  Angelika Kölbl  Vanessa Vogelsang  Jian-Rong Fu  Zhi-Hong Cao  Ingrid Kögel-Knabner 《CATENA》2011

Considerable amounts of soil organic matter (SOM) are stabilized in paddy soils, and thus a large proportion of the terrestrial carbon is conserved in wetland rice soils. Nonetheless, the mechanisms for stabilization of organic carbon (OC) in paddy soils are largely unknown. Based on a chronosequence derived from marine sediments, the objectives of this study are to investigate the accumulation of OC and the concurrent loss of inorganic carbon (IC) and to identify the role of the soil fractions for the stabilization of OC with increasing duration of paddy soil management. A chronosequence of six age groups of paddy soil formation was chosen in the Zhejiang Province (PR China), ranging from 50 to 2000 years (yrs) of paddy management. Soil samples obtained from horizontal sampling of three soil profiles within each age group were analyzed for bulk density (BD), OC as well as IC concentrations, OC stocks of bulk soil and the OC contributions to the bulk soil of the particle size fractions. Paddy soils are characterized by relatively low bulk densities in the puddled topsoil horizons (1.0 and 1.2 g cm^− 3) and high values in the plow pan (1.6 g cm^− 3). Our results demonstrate a substantial loss of carbonates during soil formation, as the upper 20 cm were free of carbonates in 100-year-old paddy soils, but carbonate removal from the entire soil profile required almost 700 yrs of rice cultivation. We observed an increase of topsoil OC stocks from 2.5 to 4.4 kg m^− 2 during 50 to 2000 yrs of paddy management. The OC accumulation in the bulk soil was dominated by the silt- and clay-sized fractions. The silt fraction showed a high accretion of OC and seems to be an important long-term OC sink during soil evolution. Fine clay in the puddled topsoil horizon was already saturated and the highest storage capacity for OC was calculated for coarse clay. With longer paddy management, the fractions < 20 μm showed an increasing actual OC saturation level, but did not reach the calculated potential storage capacity.  相似文献   

不同耕作年限水稻土土壤颗粒的体积分形特征研究   总被引：5，自引：0，他引：5  

慈恩  杨林章  程月琴  马力 《土壤》2009,41(3):396-401

应用基于土壤颗粒体积分布确定土壤颗粒大小分布分形维数的方法,对浙江慈溪耕作年限分别为50、100、500、700、1000和2000年的水稻土土壤颗粒体积分形特征进行了研究.结果表明:同基于土壤颗粒质量分布的分形维数相比,基于土壤颗粒体积分布的分形维数计算不需要密度假设,更具有合理性.不同年限水稻土的土壤颗粒大小分布能被体积分形模型显著拟合(p＜0.01).土壤颗粒体积分形维数与黏粒的体积百分含量之间呈显著正相关(p＜0.01),与粉粒和砂粒的体积百分含量之间呈显著负相关(p＜0.01),其中与黏粒含量关系最为密切.耕作年限对水稻土土壤颗粒的体积分形维数和分形模型的拟合度均有一定影响.与50 ～ 500年水稻土相比,700 ～ 2000年水稻土剖面中土壤颗粒体积分形维数的变异性和均值较高,但其拟合决定系数则较低;耕作年限会对水稻土剖面中黏粒的含量和分布产生影响,进而影响到剖面土壤的颗粒体积分形特征;对于同一质地类型的土壤,耕作年限越长,分形维数越高.  相似文献   

Functional and structural responses of bacterial and fungal communities from paddy fields following long-term rice cultivation     

Yalong Liu  Ping Wang  Genxing Pan  David Crowley  Lianqing Li  Jinwei Zheng  Xuhui Zhang  Jufeng Zheng 《Journal of Soils and Sediments》2016,16(5):1460-1471

  相似文献   

Changes in magnetic properties and their pedogenetic implications for paddy soil chronosequences from different parent materials in south China     

G.‐Z. Han  G.‐L. Zhang 《European Journal of Soil Science》2013,64(4):435-444

It remains unknown whether there is a consistent relationship between magnetism dynamics and pedogenesis for paddy soils. In this study, three paddy soil chronosequences, derived from purple sandy shale (PS), Quaternary red clay (RC) and red sandstone (RS) in the hilly regions of south China, were studied to identify changes in magnetism during soil development and to understand their implications for pedogenesis. The results show that magnetic susceptibility (MS) and soft isothermal remanent magnetization (IRM_s) simultaneously decreased to extremely small values in the anthrostagnic epipedons during the initial stages of cultivation. In contrast, this decrease was limited in the hydragric horizons of the young paddy soils and even increased in some. These changes suggest that MS and IRM_s can be enhanced by the oxidation of Fe²⁺ in acid paddy soils (between pH 5 and 6) or be depressed by anaerobic transformations of ferrimagnetic minerals. The main influence on magnetic properties was time duration and especially reducing degree of artificial submergence, while parent materials played a supportive role. Magnetic enrichments generally occurred in the clay fraction. Ferrimagnetic clay minerals were more easily altered than minerals in the silt and sand fractions. The study also shows that there was no fixed pattern in the relationship between magnetism and paddy pedogenesis and magnetic properties should be used with care when applying them to environments in which redox processes occur.  相似文献   

Similarities in chemical composition of soil organic matter across a millennia-old paddy soil chronosequence as revealed by advanced solid-state NMR spectroscopy     

Zhigao Zhou  Xiaoyan Cao  Klaus Schmidt-Rohr  Daniel C. Olk  Shunyao Zhuang  Jing Zhou  Zhihong Cao  Jingdong Mao 《Biology and Fertility of Soils》2014,50(4):571-581

This study examined the chemical composition of soil organic matter (SOM) along a 2,000-year paddy soil chronosequence in eastern China by use of advanced solid-state nuclear magnetic resonance (NMR) spectroscopy as well as Fourier transform infrared spectroscopy (FTIR), aiming to identify changes in the chemical composition of SOM over a millennium timescale. The results showed that soil organic carbon concentration in the surface soil reached a steady state after 100 years of rice (Oryza sativa L.)–wheat (Triticum sp.) cropping on coastal tidal flats. The ¹³C NMR spectra and fractions of structural groups or components of the whole SOM samples differed little along the chronosequence, suggesting a similar chemical composition in SOM samples regardless of the duration of rice cultivation. The FTIR spectral pattern and relative intensities of some resolved functional groups or components of whole SOM were also similar along the soil chronosequence. The similarities in chemical composition of SOM can be attributed to the rice–wheat cropping system, in which SOM has undergone ongoing turnover under periodical fresh plant material input and wet–dry cropping alternation, leading to a similar chemical composition of bulk SOM.  相似文献   

Magnetic depletion and enhancement in the evolution of paddy and non‐paddy soil chronosequences          下载免费PDF全文

L. M. Chen  G. L. Zhang  D. G. Rossiter  Z. H. Cao 《European Journal of Soil Science》2015,66(5):886-897

The objective of this study was to understand the rates and controlling factors of magnetic depletion and enhancement during anthropogenic soil evolution. To this end, the study compared the dynamic changes in magnetic properties as well as iron oxide species of paddy and non‐paddy soil chronosequences with the same parent materials. A two‐way analysis of variance (anova ) showed that paddy management resulted in significant (P < 0.01) decreases in magnetic susceptibility (χ) and other magnetic properties. Paddy management‐induced χ losses increased gradually from 24 to 55% as the cultivation history increased from 50 to 700 years. The rates of χ decrease were most rapid within the first 50 years of paddy cultivation, after which the rate slowed. The rapid decline in χ is probably caused by accelerated depletion of fine‐grained maghemite and ultrafine magnetite by iron‐reducing bacteria during soil waterlogging and consequent reducing conditions. By contrast, a significant decrease in hard isothermal remanent magnetization (HIRM) occurred only after 700 years of paddy cultivation, which matches the time taken to leach CaCO₃ from the profile. In contrast, although magnetic enhancement was observed in the non‐paddy surface horizon, there was no increasing trend at the millennium time‐scale, probably because of the large CaCO₃ content of the soil. We show that magnetic properties of paddy and non‐paddy soil derived from calcareous sediments are mainly controlled by the changing soil moisture regime and soil carbonate status along different paths of soil development. Our study suggests that differences in soil moisture regime caused by land use are substantially more important than the period of cultivation.  相似文献   

Temporal variation in soil carbon in various paddy soil types in a cold temperate continental monsoon climate     

Qiuju Wang  Xin Liu  Jingyang Li  Pengfei Li  Xin Zuo  Benchao Chang  Yanxia Liu  Nan Zhang  Hongjiu Yu  Lili Miao  Jie Liu  Zhenhua Guo 《Soil Use and Management》2023,39(1):122-133

Soil organic carbon (SOC) is the most important carbon pool in the terrestrial ecosystem. However, temporal variations in paddy SOC under a temperate continental monsoon climate are poorly understood. Here, we demonstrate that significant SOC variations occur in meadow soil (MS), black soil (BS) and planosol (PS) paddy soils. Several soil samples were collected from different regions where rice was cultivated for 1, 6, 10, 23 and 40 years for MS samples; for 1, 6, 10, 20 and 35 years for BS samples and 1, 5, 10, 15 and 25 years for PS samples. The total organic carbon (TOC) content and humus organic carbon (HOC) content were found to increase as the rice cultivation duration increased, while the mineralizable organic carbon (MOC) content and carbohydrate organic carbon (COC) content exhibited the opposite trend. The relationships between the relative carbon accumulation (Y) in the three soil types and time (X) were consistent with the following models: Y_TOC = 0.9973X^0.0245, Y_HOC = 0.9936X^0.0457, Y_MOC = 1.023X^−0.073, and Y_COC = 1.040X^−0.059, describing the temporal variation in the various forms of organic carbon in paddy soils under a temperate continental monsoon climate. The results of this study provide a reference for soil carbon pool management and fertilization management.  相似文献   

Changes in soil organic carbon and nitrogen in an area of Andisol following afforestation with Japanese cedar and Hinoki cypress     

《Soil Science and Plant Nutrition》2013,59(2):332-343

Abstract

To determine the rates of increase in C and N stocks in the soil and organic layers following afforestation in Andisols, we measured C and N densities in the organic and soil layers at depths of 0–5, 5–15 and 15–30?cm, together with a chronosequence analysis of 4-year-old, 14-year-old and 23-year-old Japanese cedar (Cryptomeria japonica) and 4-year-old, 12-year-old and 25-year-old Hinoki cypress (Chamaecyparis obtusa) plantations. The short-term changes in C and N were confirmed by repeated sampling 5?years after the first sampling. Tree growth, biomass accumulation and organic layers were much greater in Japanese cedar than in Hinoki cypress plantations. Soil C density (kg?m^?3) increased and bulk density decreased with stand age in the surface layer (0–5?cm). The average soil C accumulation rate was 22.9?g?C?m^?2?year^?1 for Japanese cedar and 21.1?g?C?m^?2?year^?1 for Hinoki cypress. Repeated sampling showed that the rate of increase in C in the surface soil was relatively slow in young stands and that soil C density (kg?m^?3) in the subsurface soil did not change over a 5-year period. Although N accumulated in the tree biomass and organic layers, the soil N density (kg?m^?3) did not change after afforestation. Although the andic properties of the soil and differences in the planted species did not influence the rate of increase in soil C, soil C density was expected to increase to a concentration greater than 80?g?kg^?1, possibly because of the large C accumulation capacity of Andisols.  相似文献   

北方地区滨海盐渍土型稻田土壤供氮能力的研究   总被引：1，自引：0，他引：1  

张玉玲  陈温福  虞娜  张玉龙  邹洪涛  党秀丽 《土壤通报》2011,(5):1143-1147

采用短期淹水密闭淋洗培养法(恒温30℃),研究北方地区滨海盐渍土型旱地土壤(种植苜蓿草)开垦种植水稻5年和30年稻田土壤供氮能力。结果表明:(1)3种土壤初始矿质氮主要分布在0~20 cm土层,且土壤初始矿质氮含量的高低顺序为旱地土壤>30年稻田土壤>5年稻田土壤;5年稻田土壤与旱地土壤之间初始矿质氮含量差异达5%显著水平。(2)相同土层,土壤矿化氮量高低顺序为30年稻田土壤>旱地土壤>5年稻田土壤;任意2种土壤之间矿化氮量差异均达1%显著水平。(3)相同土层,土壤供氮能力大小为30年稻田土壤>旱地土壤>5年稻田土壤;其中,在0~20 cm和40~60 cm土层,任意2种土壤之间供氮能力差异均达1%显著水平,在20~40 cm土层,30年稻田土壤与旱地土壤、5年稻田土壤之间供氮能力差异均达1%显著水平,而旱地土壤与5年稻田土壤之间供氮能力则无明显差异。这表明滨海盐渍土型旱地土壤开垦种植水稻后,不仅影响了土壤有机质(氮)含量,而且也影响了土壤有机氮品质,种植水稻5年使土壤供氮能力显著下降,而种植30年使土壤供氮能力显著上升。  相似文献   

滨海沉积物发育的水稻土时间序列母质均一性判定与特性演变   总被引：8，自引：1，他引：7  

陈留美  张甘霖 《土壤学报》2009,46(5):753-763

时间序列方法是研究土壤发生特性演变的重要途径,而比较土壤变化的重要前提之一是序列中的土壤具有相同的起源,即具有母质的相对均一性。本研究根据史料记载中浙江慈溪海塘修筑年代估计出水稻土的耕作年龄,选择了植稻年龄约为50、300、500、700、1000a以及一个未垦滩涂剖面组成的一个时间序列作为研究对象。利用各种土壤属性参数对该时间序列的母质不连续性(或母质均一性)以及水稻土相对年龄进行了判定和验证。结果表明,时间序列的6个剖面虽然具有微小的差异,但其剖面内与剖面间母质来源相同。在水稻土母质不连续性判定中,去除黏粒的粉粒与粉粒中稳定元素Ti/Zr比值具有较好的指示作用。相对易变的土壤属性参数如碳酸钙、磁化率以及游离铁的剖面分异程度在水稻土相对年龄的判定中具有较好的指示作用。综合这些参数在时间序列中的演化趋势,发现500a剖面与整个序列的变化趋势不相符合,可能是利用历史的差异所致,在相关的性质演变研究中应该从序列中剔除。  相似文献   

耕作年限对水稻土有机碳分布和腐殖质结构特征的影响   总被引：8，自引：0，他引：8  

慈恩  杨林章  程月琴  施林林  殷士学 《土壤学报》2008,45(5):950-956

分析比较了浙江慈溪耕作年限为50、100、500、700、1 000、2 000 a的水稻土剖面和不同粒级复合体中有机碳的分布特征,并利用红外光谱技术,探讨了长期耕作对水稻土腐殖质结构和功能基团的影响。结果表明,耕作年限在50~2 000 a范围内,稻田耕作表层有机碳含量受耕作年限影响不大,随着耕作年限的增加,约30~60 cm深度土层中有机碳含量有升高趋势。稻田土壤0~40 cm土层和40~80 cm土层有机碳储量变化幅度(Δ)随着耕作年限的增加逐渐下降,表明早期开垦的水稻土仍有很大的固碳潜力。100、500、1 000a水稻土耕作表层中,<2μm复合体的有机碳含量受耕作年限影响不大;随着耕作年限延长,<2μm复合体有机碳分配系数不断增大,10~50μm复合体有机碳分配系数则呈下降趋势。100、500、700 a水稻土胡敏酸的芳化度随耕作年限增加有所提高,500和700 a水稻土胡敏酸的脂肪族-CH2-、-CH3基团含量要高于100 a水稻土,胡敏酸的聚合程度基本上不受耕作年限影响。  相似文献   

Umwandlung der P-Formen und P-Verluste in Bodenchronosequenzen aus carbonatreichen Lockersedimenten des Lechs     

B.-M. Wilke 《植物养料与土壤学杂志》1979,142(5):679-688

Transformation and loss of phosphorus in soil chronosequences derived from non-consolidated sediments of the river Lech Phosphorus fractionations were carried out on soils derived from carbonat rich gravel and silt which represent two chronosequences. Results obtained by these procedures indicated an enrichment of Al, Fe-phosphates in nearly all soils. Losses of Ca-phosphates were obtained in all soils. In contrast to other soil chronosequences (viz. Franz-Josef, Manawatu) the P_Ca-contents did not decline to zero in the oldest soils. The P_org-contents of soils showed a decrease with increasing age of soils of the silt chronosequence. The C/P-ratios of the mineralic soil horizons remained nearly constant during pedogenesis. Losses of total phosphorus amounts to 400g P/m² in the 20 000 a old soils and to 160g P/m² in the 10 000a old soils. It must be assumed that the major part of the lost phosphorus has been washed out of the soils.  相似文献   

A strand plain soil development sequence in Northern Michigan,USA     

《CATENA》2001,44(3):163-186

A practical problem limiting the theoretical application of a soil chronosequence study lies in the difficulty of identifying an appropriate geomorphic age sequence with more than a few surfaces. A sequence of approximately 75 strand plain beach ridges located along the northern shore of Lake Michigan, USA, overcomes this problem, and was used to explore rates of soil development in the initial stages of podzolization. Well drained pedons were sampled on 24 of the ridges, with an age range of 10 to 5200 years. Chronofunctions were developed using statistical regression techniques. For most forms of extractable Fe and Al, both linear and log–linear functions adequately describe the changes in property with surface age. Dithionite–citrate extractable Fe content, however, shows little correlation with surface age. High r² values (>0.7) for chronofunctions representing most extractable sesquioxide forms suggest that B horizon sesquioxide content increases with surface age, as expected for soils undergoing podzolization. Visual inspection of chronofunction data suggests that scatter increases on surfaces older than 3000 years, possibly because soil spatial variability increases with surface age.Theory suggests that the log–linear form of chronofunctions may be preferable to the linear form for these pedons. In general, equation slopes are steeper for chronofunctions representing only the initial 1650 years of soil development than for those representing the entire 5200-year sequence, suggesting that initially rapid pedogenesis slows over time. Most chronofunctions for pH and weighted profile organic C are not statistically significant, possibly because the temporal resolution of the chronosequence is too coarse to detect valid trends for properties that rapidly approach a steady state.  相似文献   

Long-Term Fertilization Effects on Rice Productivity and Nutrient Efficiency in Korean Paddy     

Chang Hoon Lee  Ui Gum Kang  Ki Do Park  Do Kyoung Lee  Pil Joo Kim 《Journal of plant nutrition》2013,36(8):1496-1506

ABSTRACT

Long-term fertilization tests evaluated rice (Oryza sativa) productivity in relation to application of nitrogen (N)-phosphorus (P)-potassium (K) (120-34.9-66.7 kg ha^{? 1}, respectively) during 1967–1972 and N-P-K (150-43.7-83.3 kg ha^{? 1}, respectively) during 1973–2000. The comparison treatments (NP, PK, and NK) and the control (not fertilized) were selected for calculating nutrient efficiency. Rice grain yield increased at a 17.78 kg ha^{? 1} yr^{? 1} in the control, mainly due to development of improved cultivars. Phosphorus management was found to be important for indigenous fertility and rice productivity in this paddy soil. Yield increased significantly with P fertilization. Without N fertilization (PK), rice productivity increased 56.85 kg ha^{? 1} yr^{? 1} from 62% of NPK at the initial stage to 74% after passing 34 years, which might be affected by increasing biological N fixation with P accumulation in soil. In NK treatment, rice yield increased at a relatively low rate (37.82 kg hr^{? 1} yr^{? 1}) from the same rice productivity with that of NPK in 1967 to 91% after 34 years. In comparison, yield increased at a high rate (62.82 kg hr^{? 1} yr^{? 1}) without K fertilization (NP) from ca. 90% of NPK and might exceed the yield of NPK after 64 years of long-term fertilization. Therefore, K fertilization level might be readjusted after long-term fertilizing in paddy soil.  相似文献   

土壤时间序列的构建及其在土壤发生研究中的意义   总被引：5，自引：1，他引：4  

陈留美  张甘霖 《土壤学报》2011,48(2):419-428

土壤时间序列在研究土壤演化速率与方向、建立土壤发生演化模型上具有重要的价值,并且能为土壤发生学理论的验证提供宝贵的信息。为了获得可靠的结果,时间序列的构建必须包括剖面内与剖面间母质均一性或母质不连续性的判定以及土壤的绝对或相对年龄的判定这两个重要过程。本文综述了土壤时间序列的类型及其构建方式,详细论述了在时间序列建立过程中母质不连续性的判定方式与土壤定年方法,并阐明了土壤时间序列方法在土壤发生研究中的重要意义,旨在为正确建立土壤时间序列、深刻理解土壤发生中的时间因素提供较为详尽的参考。  相似文献   

Changes in Soil Properties and Microbial Indices across Various Management Sites in the Mountain Environments of Azad Jammu and Kashmir     

《Communications in Soil Science and Plant Analysis》2012,43(6):768-782

The mountainous region of the Himalayas is covered with forest, grassland, and arable land, but the variation in ecosystem functions has not been fully explored because of the lack of available data. This study appraises the changes in soil properties over the course of a year (spring, summer, autumn, winter) for forest, grassland, and arable soils in a typical hilly and mountainous region of Azad Jammu and Kashmir, Pakistan. Soil samples were collected from major land-cover types in the mountain region: natural forest, grassland, and cultivated land (arable). The natural forest served as a control against which changes in soil properties resulting from removal of natural vegetation and cultivation of soil were assessed. Soil samples were collected from depths of 0–15 and 15–30 cm six times during the year and examined for changes in temperature, moisture, electrical conductivity (EC), micronutrients [iron, manganese, copper, and zinc (Fe, Mn, Cu, Zn, respectively)], and microbial population. Significant differences were found in soil temperature, soil moisture, Fe, Mn, Cu, Zn, and number of bacteria, actinomycetes, and fungi among the three land-cover types. Soil under cultivation had 4–5 °C higher temperature and 3–6% lower moisture than the adjacent soils under grassland and forest. Electrical conductivity (EC) values of forest, grassland, and arable soil were 0.36, 0.30, and 0.31 dS m^?1, indicating that soil collected from the forest had 18–20% more EC than the adjacent arable and grassland soils. On average, amounts of Fe, Mn, Cu, and Zn in the soil collected from the arable site were 6.6, 5.7, 1.7, and 0.8 mg kg^?1, compared with 24.0, 12.1, 3.5, and 1.2 mg kg^?1 soil in the forest soil, showing that arable had two to four times less micronutrients than grassland and forest. Populations of bacteria, actinomycetes, and fungi in the forest were 22.3 (10⁵), 8.2 (10⁵), and 2.5 (10³), respectively, while arable land exhibited 8.2 (10⁵), 3.2 (10⁵), and 0.87 (10³). Season (temperature) and depth showed significant effects on microbial activity and nutrient concentration, and both decreased significantly in winter and in the subsurface layer of 15?30 cm. Different contents of the parameters among arable, grassland, and forest soils indicated an extractive effect of cultivation and agricultural practices on soil. Natural vegetation appeared to be a main contributor to soil quality as it maintained the moisture content and increased the nutrient status and microbial growth of soil. Therefore, it is important to sustain high-altitude ecosystems and reinstate the degraded lands in the mountain region.  相似文献