上海地区水稻土氮素矿化模拟

Six paddy soils of Shanghai, China, were studied after 120 days of anaerobic incubation at 25 ℃ and 35 ℃. Four models, the effective accumulated temperature model, the one-component first-order exponential model (the one-pool model), the two-component first-order exponential model (the two-pool model), and the two-component first-order plus zero-order exponential model including a constant term (the special model), were fitted to the data of observed mineral-N during incubation using non-linear regression procedures. The two-pool model and the special model gave the best fits amongst the four models, and parameters in the special model were more reasonable than those in the other three. Results showed that the special model gave a better prediction of nitrogen mineralization under flooded conditions than the other three models.     

上海地区水稻土氮素矿化及其模拟

采用改进的培养方法和分析手段研究了上海地区典型水稻土淹水条件下的氮素矿化过程。结果表明矿化量为全N的 4 0 %～ 9 4 % (N 6 0～ 2 4 1mgkg-1)。通过偏相关分析 ,矿化量只表现为与全N相关。矿化期间pH变化较大且与矿化量直线相关。选择 (1)有效积温式 ;(2 )一级反应式 (One pool模型 ) ;(3)两部分一级反应式 (Two pool模型 ) ;(4 )带常数项的一级反应式 (Special模型 ) ,对实验结果进行了拟合。非线性拟合表明Two pool模型和Special模型最优 ,后者体现出温度效应。通过参数分析和实际应用可能性剖析 ,认为Special模型能对实际情况下的氮素矿化作出更为准确的描述     

封闭系统水稻土甲烷氧化的模拟

Methane oxidation by paddy soils in a closed system could be simulated by the equation x=k1xo/(k1 k2x0)exp(k2t)-k2x0 where x0 and x are the CH4 concentrations at time zero and t,respectively;k1 and k2 are constants related to the constant of first-order-kinetics.According to the equation the change of soil ability to oxidize CH4 could be estimated by the equation Ac=k2/k1(x0-x)x0k2/k1-1.The results showed that the soil ability to oxidize CH4 varied,depending on the initial CH4 concentration.High initial CH4 concentration stimulated soil ability to consume CH4,while low concentration depressed the ablility.This characteristic of paddy soil seemed to be of considerable significance to self-adjusting CH4 emission from flooded rice fields if there exist oxic microsites in the soil.     

辽河平原地区长期施肥水稻土氮素矿化及其模拟的研究

采用长期淹水密闭——间歇淋洗培养方法和分析手段,研究了辽河平原地区连续16年长期不同施肥(不施氮肥、氮肥、氮肥+有机肥、氮肥+有机肥+放萍)水稻土氮素的矿化过程。结果表明长期不同施肥水稻土氮矿化量为N15.61～103.57mgkg-1,为全N的1.25%～5.66%;氮肥+有机肥处理土壤氮矿化量最高,占全氮比率最大,而氮肥处理土壤氮矿化量最低,占全氮的比率最小;氮矿化量与全氮、有机质、C/N之间呈显著相关关系(P<0.05)。选择有效积温式(EATM);一级反应式(One-pool模型);带常数项的一级反应式(Special模型),对实验数据进行拟合。非线性拟合结果表明Special模型明显优于One-pool模型和有效积温式(EATM)。分析表明Special模型能更为准确地描述长期不同施肥措施下水稻土有机氮素的矿化。     

温度对厌氧条件下不同pH水稻土氮素矿化的影响

氮矿化反应是土壤生态系统氮素循环的重要环节之一,决定了土壤氮素的可利用性。温度和pH是影响氮素矿化的重要环境因子。为研究厌氧条件下温度对不同pH水稻土氮素矿化的影响,本文以两种不同pH的水稻土为试验对象,在厌氧条件下,设置15℃、25℃、37℃和50℃4个温度,结合一级反应动力学方程式和有效积温式研究温度对土壤氮素矿化势、矿化速率、矿化程度和矿化势/全氮等矿化参数的影响。结果表明,两种土壤氮素矿化势均随着温度的升高而增大。在15~37℃范围内,两种土壤的矿化速率以及矿化程度均随着温度升高而增大,且同种温度下两土壤差异不显著。但在37~50℃范围内,随着温度的升高,两种pH土壤矿化速率以及矿化程度有增大也有减小,差异达1%显著水平。说明在高温范围内,不同pH土壤氮素矿化对温度的响应有很大差异。4个温度下,矿化势/全氮的值均随温度升高而增大,说明有机氮的品质随温度升高而提高。通过温度与矿化参数的相关性分析发现,在15~37℃范围内,各矿化参数与温度均呈正相关,且相关性极显著(P0.01);但37~50℃时,各矿化参数与温度相关性均较小,有的为负相关。本试验测定各培养周期的pH,发现在培养过程中,两种土壤pH波动不大,对土壤氮矿化的变化无影响。结果表明,厌氧条件下,尽管中、低温时不同pH水稻土氮素矿化对温度有相似的响应,但高温时不同pH土壤的氮素矿化显著不同。     

铁氧化物对厌氧水稻土中乙酸的矿化、转化及其激发效应的影响

乙酸是甲烷产生过程的重要底物,其在水稻土中的矿化和转化过程对水稻土碳循环和固碳减排具有重要意义。在长期淹水的水稻土中,铁作为重要的变价金属元素,对乙酸的矿化和转化可能具有重要影响。因此,本研究向水稻土中添加13C-乙酸、水铁矿和针铁矿,动态监测厌氧培养（100 d）期间CO2和CH4排放规律和土壤环境因子的变化规律,同时分析乙酸的矿化和转化特征以及CO2和CH4的激发效应,并解析不同铁氧化物在其中的作用效应。结果表明,培养结束后,只添加乙酸的处理中33%和36%的乙酸分别矿化为CH4和CO2,另外0.12%、2%和28%的乙酸分别形成了可溶性有机碳（DOC）、微生物量碳（MBC）和土壤有机碳（SOC）。乙酸添加引起了CO2负激发效应和CH4正激发效应。土壤产生CO2和CH4比例因乙酸的添加由3.46:1变为1.83:1。针铁矿的添加显著增加了乙酸来源的CO2累积排放量,但水铁矿对乙酸来源的CO2累积排放量却无显著影响。水铁矿和针铁矿均显著降低了SOC来源的CO2累积排放量,加剧了乙酸引起的CO2负激发效应。水铁矿和针铁矿均显著降低了乙酸来源的CH4累积排放量,对SOC来源的CH4累积排放量无显著影响。水铁矿和针铁矿显著增加了乙酸转化为MBC和SOC的比例。因此,乙酸在土壤中的矿化和转化行为会影响土壤原有有机碳产生CO2和CH4;水铁矿和针铁矿结晶程度不同,对乙酸的矿化、转化及其激发效应的影响也不同。研究结果可为稻田的固碳减排提供一定的理论依据和技术支撑。     

镉污染水稻土中水稻氮素营养的SPAD诊断

治理和安全利用重金属污染水稻土过程中,氮素营养的快速诊断是制定合理施肥措施的基础。叶绿素测定仪SPAD已广泛应用于非污染耕地土壤中玉米、小麦和棉花等作物的氮素营养诊断,然而针对镉污染条件下的不同类型水稻土,SPAD在诊断水稻氮素营养的适应性方面仍然缺乏系统研究。本研究采集了我国水稻主产区的21种典型水稻土,以德农2000为供试水稻品种,设置无镉污染、轻度镉污染、重度镉污染处理的水稻盆栽试验,研究水稻叶片SPAD值对镉污染水稻土氮素供应诊断和水稻产量预测的能力。结果表明:水稻土类型影响了水稻叶片SPAD值对不同水平镉污染的响应,土壤p H是主控因子,其相对影响的平均值为20%。水稻叶片SPAD值与不同生育期水稻籽粒氮素含量显著正相关,其中拔节期的相关系数最大;同时水稻叶片SPAD值与水稻营养生长期(苗期至拔节期)土壤溶液总氮和铵态氮含量呈显著正相关,且不受镉污染程度和土壤类型的影响。总体上,不同生育期(尤其是拔节期)水稻叶片的SPAD值可以表征镉污染条件下不同类型水稻土氮素养分供应对水稻氮素营养的影响。     

在施钾条件下灌溉水稻的养分吸收和利用效率研究

Potassium is one of the most important nutrients for rice production in many areas of Asia, especially in southeast China where potassium deficiency in soil is a widespread problem. Field experiments were conducted for four consecutive years in Jinhua City, Zhejiang Province, to determine utilization of nutrients (N, P and K) by inbred and hybrid rice and rice grain yields as affected by application of potassium fertilizer under irrigated conditions. Grain yield and nutrient harvest index showed a significant response to the NPK treatment as compared to the NP treatment. This suggested that potassium improved transfer of nitrogen and phosphorus from stems and leaves to panicles in rice plants. N and P use efficiencies of rice were not strongly responsive to potassium, but K use efficiency decreased significantly despite the fact that the amount of total K uptake increased. A significant difference between varieties was also observed with respect to nutrient uptake and use efficiency. Hybrid rice exhibited physiological advantage in N and P uptake and use efficiency over inbred rice. Analysis of annual dynamic change of exchangeable K and non-exchangeable K in the test soil indicated that non-exchangeable K was an important K source for rice. Potassium application caused an annual decrease in the concentration of available K in the soil tested, whereas an increase was observed in non-exchangeable K. It could be concluded that K fertilizer application at the rate of 100 kg ha^-1 per season was not high enough to match K output, and efficient K management for rice must be based on the K input/output balance.     

移栽灵对不同土壤上水稻旱育秧生长及铁,锰营养的影响

采用一种缺锰土壤,二种缺铁土壤和一种铁,锰丰富的土壤进行盆栽试验研究了移栽灵混剂对水稻旱育秧苗生长及铁,锰营养的影响,结果表明,在铁,锰供应充足土壤上,移栽灵轻度抑制时秧生长,缺锰和轻度缺铁土壤上移栽灵增加旱秧分蘖并促进生长;但在严重缺铁土壤上则无明显效果。移栽灵防治旱秧铁,锰缺乏和促进旱秧生长的效果均不如传统单 育秧技术中硫黄调酸处理。植株分析发现仅在缺锰土壤上移栽灵增加了旱秧铁,锰吸收量,其余     

尿素施用对稻田土壤甲烷产生、氧化及排放的影响

通过田间和培养试验研究了不施尿素(N0kg/hm2)和施用尿素(N300kg/hm2)对水稻生长期稻田土壤CH4产生潜力、氧化潜力和排放通量的影响。结果表明,水稻全生育期内,施用尿素降低土壤CH4产生潜力,并推迟其达到最大值的时间;尿素作为基肥和穗肥施用抑制土壤CH4氧化,而作为分蘖肥施用短暂地促进然后抑制土壤CH4氧化;施用尿素降低稻田CH4排放量。施用尿素通过同时影响CH4产生潜力和氧化潜力来影响稻田CH4排放。     

不同母质发育的红壤性水稻土磷素吸附特性及其影响因素的研究

磷是作物生长发育所必需的营养元素,植物吸收利用的是土壤中的有效磷,土壤有效磷的消长取决于土壤磷素的收支状况,而其消长速度则与土壤性质有关[1]。不同质地土壤固相表面的吸附能力不同,因而影响了土壤溶渡中磷的浓度[2]。为确保土壤满足作物吸收所必需的最低磷溶液浓度,就需要对不同土壤固相的吸附性能进行研究。而水稻土常年以淹水和风干状态交替存在,因此水稻土中     

Effect of fertilizer application on methane emission/production in the paddy soils of Taiwan

Methane production in three types of rice paddy soil was investigated under greenhouse conditions. The amount of methane produced during the first crop season (March to July) was 2–6 times higher than that in the second crop season (August to December). Application of organic fertilizer hastened the drop in redox potential and increased methane production and emission. Methane production also increased with the depth of soil with high values in soil samples from 18 to 30cm depth. Methane production in the first crop season was 18.0, 54.3 and 49.4mgcm^–3 for 6tha^–1 straw application for Linkou, Tzawchyau and Jiaushi soils, respectively. The value was 33.4mgcm^–3 for the second crop season in Jiaushi soil. Methane emission was high during the flowering and maturity stages in the first crop season and the values were high during the tillering and flowering stages in the second crop season. Methane emission was high in Tzawchyau and Jiaushi soils in the first crop season. Methane emission rate reached a maximum from 12 noon to 3p.m. due to high temperature and a minimum at 3 to 6a.m. in both planted and unplanted soils. Received: 17 September 1996     

Inhibitors of methane production in paddy soils

Global warming is now attracting the world attention. Methane is an important greenhouse gas next to CO₂. Prather et al. (1995) estimated that rice paddy fields account for 14% of all biogenic atmospheric methane. It is considered that methane production from rice paddy fields is increasing along with the increase of the population. Therefore, the development of rice cultivation techniques for reducing methane production is essential, in order to preserve the global environment.     

Effect of rice straw application on CH4 emission from paddy fields

The effect of rice straw (RS) incorporated at the time of plowing in the previous cr–p season on CH₄ emission from rice paddies was investigated in a pot experiment. Rice straw that incorporated just before transplanting of rice seedlings (June) into a paddy field was collected after the harvest (October) and at the beginning of the next cropping period (May). Methane emission rates from the rice-planted pots with the application of fresh RS, RS collected in October. and RS collected in Mayas well as the pots without RS application were measured using the chamber method. The composition of organic constituents in the three kinds of RS was estimated by the proximate analysis. The cumulative amount of CH₄ emitted during the first 50–d period was lower in the order of the pots with RS collected in May, pots with RS collected in October, and pots with fresh RS. The cumulative amount of CH₄ emitted throughout the rice growth period from the pots with fresh RS and with RS collected in October was significantly larger while that from the pots with RS collected in May did not differ statistically compared with the total CH₄ emission from the pots without RS. These results suggested that there was an overall decrease in the amount of organic constituents in RS based on the large differences in T-C content and similar composition of organic constituents between the fresh RS and RS collected in May. Significant effect of RS continuously applied during the previous cropping period on the increase in CH₄ emission was discussed.     

长期定位试验对水稻田土壤甲烷氧化活性和甲烷排放通量的影响

通过对长期定位施肥的黄松稻田土的甲烷氧化活性和甲烷排放通量的研究表明,长期定位施肥对稻田土壤的好氧甲烷氧化活性和甲烷排放通量有显著性的影响(|t|t0.05,P0.05),而对稻田土壤的厌氧甲烷氧化活性有影响但未达显著性水平(|t|t0.05,P0.05)。施加有机肥能显著增加稻田土壤的甲烷氧化活性和甲烷排放通量;当有机肥和无机肥混合施用时,其促进作用明显大于单施有机肥或无机肥。施加尿素后,稻田土壤的甲烷氧化活性及甲烷排放量都有所下降,但钾肥和磷肥能缓解由尿素引起的抑制作用。施肥后耕作的稻田甲烷氧化活性和甲烷排放通量高于施肥后不耕作的稻田;耕作而不施肥的稻田甲烷氧化活性和甲烷排放通量要低于不施肥也不耕作的稻田。     

中国太湖地区水稻田甲烷排放的估算

Methane fluxes from late rice and single cropping rice fields in Taihu region were measured using closed chamber method in 1992 and 1993 and CH4 emission from this region (total area of paddy soils was about 1.88 million hectares,of which 0.63 million hectares are distibuted in the south of Jiangsu province) was estimated on the basis of the meam CH4 fluxes observed.The results showed that the mean CH4 flaxes from late rice and single cropping rice field were quite similar under the prevailing cultivation practices in the region,being around 5 mg CH4/m^2/h(4.31-5.31mg CH4/m^2/h for various cultivars of the late rice and 3.20-6.22mg CH4/m^2/h for various treatments of the single cropping rice).Total CH4 emission from paddy soils in the region was estimated to e 0.185-0.359 Tg CH4 per year.Continuously flooding the soil with a water layer till ripening caused higher mean CH4 flux;and addition of nitrification inhibitor(thiourea) stimulated CH4 emission.There was no simple repationship between CH4 flux and either soil temperature or soil Eh.     

湖南省几种主要母质发育的水稻土有效态微量元素含量及评价

采用调查采样、室内分析和评价的方法,研究了湖南省几种主要母质发育的水稻土的有效态微量元素含量及丰缺状况。结果表明,土壤有效Fe和有效Mn含量很高,属于丰富级别;土壤有效Cu、有效Zn和有效B含量极低,处于缺素状态,需要补充和施用Cu、Zn和B肥,以保证水稻的正常生长。     

不同有机肥对稻田温室气体排放及产量的影响

为研究有机肥施入稻田对温室气体排放的影响,设置猪粪、鸡粪和稻草分别与化肥混施处理,利用静态箱法-气相色谱仪监测稻田甲烷(CH_4)和氧化亚氮(N_2O)排放通量并进行分析。研究结果表明,化肥处理(CF)CH_4季节排放为202.1、279.9和332.5 kg/hm~2,与猪粪(PM)无显性差异,明显低于鸡粪(CM)和稻草(RS)处理;CF处理N_2O排放总量最高,与有机肥处理无显著性差异;CH_4季节排放通量与土壤Eh值呈极显著负相关关系,与土壤温度呈极显著正相关关系;肥料中不同活性有机碳质量分数为18.4~114.5 g/kg,肥料中被167 mmol/L高锰酸钾氧化的有机碳(ROC167)与稻田CH_4排放总量呈显著正相关关系(相关系数为0.872,P0.05);施有机肥第三年水稻平均产量比CF处理增加14.3%(P0.05);不同有机肥中,以PM处理的增温潜势和温室气体排放强度最小,与不施肥和CF处理无显著性差异,猪粪的ROC167含量低,能较好的协调环境与产量之间关系,是值得推荐的有机肥种类。