黄土区几种土壤培养过程中可溶性有机碳、氮含量及特性的变化

对不同地域农田和林地土壤进行35 d好气培养研究,结果表明:不同土壤培养过程中可溶性有机碳(SOC)含量呈明显下降,而可溶性有机氮(SON)含量却呈明显增加趋势。不同农田土壤相比,在培养起始时和培养过程中红油土SOC和SON的平均含量均高于黑垆土和淋溶褐土;同为黑垆土,林地土壤SOC和SON含量均明显高于相应农田土壤。与起始值相比,土壤培养后提取的可溶性有机物的UV280和HIXem(Hu-mification index)值均明显增加,其中HIXem值在培养的第8天和第35天时呈显著增加趋势。随着培养过程的持续,SOC/SON比值逐渐下降。相关分析发现,培养第35天时SOC的减少幅度与UV 280增加比例呈显著正相关;培养第8天时SOC的减少比例与起始HIXem值呈显著负相关。说明UV280和HIXem值可以在一定程度上反映可溶性有机物种类和结构特性的变化。     

Carbon and nitrogen store and storage potential as affected by land-use in a Leymus chinensis grassland of northern China

Understanding the store and storage potential of carbon (C) and nitrogen (N) helps us understand how ecosystems would respond to natural and anthropogenic disturbances under different management strategies. We investigated organic C and N storage in aboveground biomass, litter, roots, and soil organic matter (SOM) in eight sites that were floristically and topographically similar, but which had been subjected to different intensities of disturbance by grazing animals. The primary objective of this study was to ascertain the impact of grazing exclusion (GE) on the store and storage potential of C and N in the Leymus chinensis Tzvel. grasslands of northern China. The results revealed that the total C storage (including that stored in aboveground biomass, litter, roots, and SOM, i.e. top 100-cm soil layer) was significantly different among the eight grasslands and varied from 7.0 kg C m⁻² to 15.8 kg C m⁻², meanwhile, the total N storage varied from 0.6 kg N m⁻² to 1.5 kg N m⁻². The soil C storage decreased substantially with grassland degradation due to long-term heavy grazing. 90% C and 95% N stored in grasslands were observed in the SOM, and they were minor in other pools. The limit range of C and N storage observed in these grassland soils suggests that GE may be a valuable mechanism of sequestering C in the top meter of the soil profile.     

Manure increase the leaching risk of soil extractable organic nitrogen in intensively irrigated greenhouse vegetable cropping systems

Soil extractable organic nitrogen plays an important role in nitrogen transformation and migration in many ecosystems. However, it is generally ignored due to its low content in agricultural soils. The objective of this study was to evaluate the leaching risk of soil extractable organic nitrogen affected by manure application in an intensively irrigated greenhouse vegetable cropping system through investigating its spatial (vertical profile) and temporal dynamics. Results showed that extractable organic nitrogen was present in appreciable quantities, despite that nitrate was the main soluble nitrogen form in 0–60 cm soil profile. Both the extractable organic and inorganic nitrogen were enriched in the surface and subsurface soils, and showed a high temporal variability throughout the cucumber growing season. Manure application increased the stocks of extractable organic nitrogen significantly in the soil profile. Average extractable organic nitrogen reserves in 0–60 cm layer were 47, 71, and 131 kg ha^?1 for the treatments of 0, 20, and 30 t dry chicken-manure application ha^?1, respectively, during the cucumber growing season. As a result, while extractable organic nitrogen only accounted for a small part of total extractable nitrogen, its high contents and large temporal variation demonstrated its leaching risk in intensively irrigated vegetable cropping systems. Soil extractable organic nitrogen should be taken into account when an advanced environment management strategy is to be developed in greenhouse vegetable planting practice.     

运输应激对大鼠行为、血清皮质酮及下丘脑视上核nNOS表达的影响

为研究运输应激对动物行为、内分泌以及脑内神经型一氧化氮合酶(Neuronal nitric oxide synthase,nNOS)表达的影响,采用摇床加制动束缚模拟公路运输途中的摇晃、拥挤和限制活动等因素,建立大鼠运输应激模型(35℃,120r/min,应激2h)。将18只大鼠随机分为对照组、应激组和应激恢复组,采用旷场试验评定大鼠行为反应,放免法测定大鼠血清皮质酮含量,免疫组化法检测大鼠下丘脑视上核(Supraoptic nucleus,SON)中nNOS的表达。结果显示,与对照组相比,应激组大鼠的自主活动明显减少(P0.01),血清皮质酮(Corticosterone,CORT)含量显著增加(P0.01),SON中nNOS的平均光密度值显著上升(P0.01),应激恢复组大鼠的自主活动次数和血清皮质酮含量恢复至正常水平,而SON中nNOS的平均光密度值进一步上升。上述结果表明,运输应激对大鼠情绪、行为和神经内分泌有显著影响,24h后行为及内分泌状况改善,而神经递质的改变则需更长时间恢复。     

Extractable and dissolved soil organic nitrogen - A quantitative assessment

Extractable Organic N (EON) or Dissolved Organic Nitrogen (DON) pools are often analyzed to predict N mineralisation, N leaching, and to evaluate agricultural (nutrient) management practices. Size and characteristics of both pools, however, are strongly influenced by methodology. Quantifying the influence of methodology can increase the accuracy of soil tests to predict N mineralisation, improve model simulations, and can help to quantify the contribution of the EON and DON pools to soil N cycling. We estimated the relative impact of methodological, management, and environmental factors on EON and DON, using a meta-analysis approach based on 127 studies. Our results indicate that the EON and DON pools are neither similar in size nor controlled by the same factors. The influence of factors controlling EON generally decreased in the order of methodology (Δ10-2400%), followed by environment (Δ11-270%) and management (Δ16-77%). DON concentrations were primarily controlled by management factors: different land use and fertilisation caused a variation of 37-118%. Seasonal variations in DON concentrations were generally smaller than variations in EON, suggesting that high mineralisation and sorption rates buffer DON. The large range in EON as affected by different methodology emphasizes the importance of using appropriate and standardized methods for the determination of EON. The determination of DON can be useful to estimate leaching losses. EON, however, can be used to assess the impact of soil management practices on the turnover rate of labile soil organic matter pools.     

黄土区几种土壤培养过程中可溶性有机氮的变化及其与土壤矿化氮的关系

研究了黄土高原12种土壤(农地和林地)35 d好气培养过程中可溶性有机氮(SON)含量及其占可溶性全氮(TSN)的比例,以及SON与土壤矿化氮间的关系。结果表明,随着培养过程的进行,不同类型土壤SON的含量均呈明显增加;土壤SON占TSN的比例在培养的前3 d内明显下降,随后这一比例基本保持在24%左右。根据总可溶性氮确定的供试土壤氮素矿化势No平均为45.8 mg/kg,较由矿化的无机氮确定的土壤氮素矿化势No(平均36.5 mg/kg)高约1/4左右;培养过程中土壤SON含量与利用无机氮拟合得到的土壤氮素矿化势No间的相关性未达显著水平。研究表明,评价土壤氮素矿化特性时仅仅测定矿化的无机氮数量,可能会低估土壤氮素矿化潜力和氮素损失的数量和效应。     

黄土区不同类型土壤微生物量碳、氮和可溶性有机碳、氮的含量及其关系

研究了黄土高原南部地区不同土壤类型及不同利用方式下土壤微生物摄碳、氮和可溶性有机碳、氮的含量。结果表明：不同土地利用方式下，土壤微生物量碳、氮和可溶性有机碳、氮含量均为林地〉农田，其中林地枯枝落叶层〉林地O～20cm土层。农田土壤微生物量碳、氮的含量均为红油土〉黑垆土〉淋溶褐土；农田土壤中可溶性有机碳含量为淋溶褐土〉红油土〉黑垆土，而可溶性有机氮含量则为黑垆土〉红油土〉淋溶褐土。方差分析表明，不同土壤类型土壤微生物量氮含量之间的差异达显著水平，而不同土壤类型间土壤微生物量碳、可溶性有机碳、氯含量之间的差异未达显著水平。土壤微生物量碳、氮占土壤有机碳和全氮的比例明显高于可溶性有机碳、氮占土壤有机碳和全氮的比例。相关分析发现，土壤微生物量碳与可溶性有机碳之间以及土壤微生物量氮与可溶性有机氮之间的相关性达显著或极显著水平，说明土壤微生物量碳、氮和土壤可溶性有机碳、氮之间有密切联系。     

黄河三角洲盐碱地人工林土壤可溶性有机氮含量及特性

对黄河三角洲盐碱地10 a生刺槐林、白蜡林和杨树林土壤可溶性有机氮（SON）进行了研究。结果表明：3种人工林中,刺槐林20-40 cm层土壤SON含量最高,为26.99 mg/kg,与其他林分差异显著;而白蜡林0-20 cm层土壤SON含量显著高于其他林分,为16.71 mg/kg。3种林分0-20 cm土壤SON含量占TSN的百分含量分别为50.99%,47.06%和59.99%,差异显著（P〈0.05）;20-40 cm土壤SON占TSN百分含量范围为55.9%～59.01%。相关分析结果表明,土壤SON与土壤TSN、无机氮、全氮呈极显著相关性（P〈0.01）,与土壤有机质呈显著相关（P〈0.05）,与土壤全盐量呈负相关。     

灌溉模式与施氮水平对土壤渗滤液氮浓度动态变化的影响

以Ⅱ优838为水稻供试品种,湖北潮土为供试土壤,通过2年稻麦轮作柱栽试验研究2种灌溉模式(FW:土表淹水3cm;CW:保持土壤湿润但土表不积水)和4个施氮水平(N0:0kg·hm-2,N1:126.0kg·hm-2,N2:157.5kg·hm-2,N3:210.0kg·hm-2)对水稻土渗滤液不同形态氮浓度变化动态的影响。结果表明:土壤渗滤液的总氮浓度随水稻生育期推移呈由高到低的变化趋势,氮素淋失风险主要存在于水稻移栽后的前40d左右;在稻麦轮作制中,前作小麦明显提高后作水稻土壤渗滤液氮浓度;硝态氮(NO3--N)和可溶性有机氮(SON)是土壤渗滤液氮素的主要形态,铵态氮(NH4+-N)所占比例较低;水稻移栽后20～30d左右出现土壤渗滤液NO3--N高峰,在高峰期土壤渗滤液的NO3--N浓度随施氮量增加而提高;减氮25%处理(N2)相对于常规施氮量处理(N3)显著提高氮肥利用率,并降低氮素淋失风险。     

Dynamics of dissolved and extractable organic nitrogen upon soil amendment with crop residues

Dissolved organic nitrogen (DON) is increasingly recognized as a pivotal pool in the soil nitrogen (N) cycle. Numerous devices and sampling procedures have been used to estimate its size, varying from in situ collection of soil solution to extraction of dried soil with salt solutions. Extractable organic N (EON) not only consists of DON but contains also compounds released from soil biomass and desorbed organic matter. There is no consensus whether DON or EON primarily regulates N mineralisation in soil, and their contribution to N mineralisation has not been quantified simultaneously. We evaluated three sampling procedures on their ability to determine the dynamic of dissolved organic N pools. The three procedures were the determination of DON in 1) soil solution collected by centrifugation, and the determination of EON in 2) a 0.01 M CaCl₂ extract of field moist or 3) dried soil. We added unlabeled leek and ¹⁵N-labeled ryegrass residues to a loamy sandy soil to create a temporarily increase in DON and EON, to stimulate microbial activity, and to test whether the source and dynamics of the three pools differ. We also tested whether the flow of N through DON or EON was associated with the production of inorganic N using ¹⁵N isotope tracing. Sampling procedures significantly affected the amount, but not the dynamics and origin of the three organic N pools. DON and EON (determined on field-moist and dried soils) showed all a significant increase upon crop amendment and returned to their background concentrations within 10 to 30 days. The fraction of DON and EON originating from the crop residue slightly decreased over 138 days and was not different for DON and EON. Field moist extraction of a loamy sandy soil with 0.01 M CaCl₂ gave a reliable estimate of the concentration of in situ dissolved organic N. In contrast, extraction of dried soil significantly increased EON compared to DON. The agreement in dynamics, ¹⁵N enrichment and C-to-N ratio’s indicate that dissolved and extracted organic N have a similar role in N mineralisation. Our results also suggest that they make a minor contribution to N mineralisation; changes in the turnover rate of EON were not associated with changes in the net N mineralisation rate.