Relationship Between Organ Masses and Basal Metabolic Rate (BMR) in Tree Sparrows (Passer montanus)

BMR （basal metabolic rate）, body mass and organ masses of tree sparrows （Passer montanus） were measured to analyze the correlation between organ masses and BMR in tree sparrows, and to evaluate the underlying physiological causes of difference in BMR. Adult tree sparrows were live-trapped by mist net in Qiqihar City, Heilongjiang Province （47°29′N, 124°02′E）. The closed circuit respirometer was used to measure the metabolic rate （MR）, and controlled the ambient temperature by using a water bath （±0.5℃）. Body masses were measured to the nearest 0.01 g before and after BMR measurements with a Sartorius balance （model BT25S）. The mean value was recorded as body mass. Wet and dry masses of several organs were measured, too. BMR was （4.276± 0.385） mL O2/（g·h） and mean body mass was （18.522±0.110） g. Since not all the variables were normal distributed, a log10- transformation of those variables was employed to linearize them, prior to analyses. Simple regression analyses indicated that most organ masses showed a significant high correlation with body mass. Both the small intestine and rectum masses were notable exception to that trend. The body-mass-adjusted residual analysis showed that only the kidney wet mass, brain mass, stomach mass, small mass and rectum wet mass correlated with BMR. In addition, correlations between several organ masses and BMR were observed. Because of the inter-correlations of organ masses, a principal component analysis （PCA） was performed to redefine the morphological variability. The first four components whose eigenvalues were greater than 1 could explain 75.2% variance of BMR. The first component, whose proportion reached 30.19%, was affected mainly by stomach mass, small intestine mass and rectum mass. Therefore, the results supported the hypothesis that BMR was controlled by some ＂expensive metabolic＂ organs

Competition-density effect of tree organs in Acacia auriculiformis stands

The competition-density (C-D) effects for mean mass for tree, stem, branch and leaf were analyzed in Acacia auriculiformis stands. Mean tree mass-density and mean organ mass-density were well explained by the C-D equation of tree and the C-D equation of tree organ, respectively. An equation describing the relationship between mean leaf area u and density was formulated that fit the u-data well. The relationship between mean tree mass w and the ratio of each organ to mean tree mass (wo/ w) was examined. With increasing w, the stem mass ratio wS/w increased, whereas the branch mass ratio wB/w and the leaf mass ratio wL/w decreased. The yield difference between the lowest-density stand and the high-density stand became greater with stand growth. However, the yield of the mid-density stand was slightly lower than the yield of the high-density stand during the experimental period. To produce the most desirable combination of demanding individual-tree size and relative high stem yield, the mid-density is recommended as proper planting density for future management of A. auriculiformis stands.

Throughfall and stemflow chemical dynamics of Satoyama, a traditional secondary forest system under threat in Japan

The term 'Satoyama' refers to traditional and unique secondary forests in Japan that occupy intermediate zones between villages ('sato') and hills or mountains ('yama'). Satoyama landscapes help sustain ecosystem services and the diversity of secondary natural environments. As Japan relies more heavily on foreign timber imports, the traditional role of Satoyama in providing forest products has diminished, and this has led to their abandonment and poor management. The chemical behavior of cations, anions, and dissolved organic matter in throughfall and stemflow from one such threatened Satoyama system in central Japan was investigated. From autumn to winter, the atmospheric deposition of sulfates and nitrates was 2.5–6.0 times higher compared to the amounts in summer due to the intrusion of air masses from the Asian continent. The dissolved organic matter in the throughfall and stemflow was composed mainly of humic substances and protein derivatives. The deposition fluxes of dissolved organic carbon from throughfall (7.31–10.1 g m^(−2) a^(−1)) and stemflow (1.79–3.84 g m^(−2) a^(−1)) in this study were within ranges seen in temperate forests in previous studies. The deposition flux of sulfates was low compared to that in other forest types because canopy interaction was lower, suggesting higher canopy openness than in primary forests. If a shift from a mixed species Satoyama forest to a conifer-dominated forest occurs after the mass mortality of oak, the deposition flux of dissolved organic carbon and K^(+) might decrease by 33% and 62%, respectively, while NO_(3)^(−) might increase by 20%. In the near future, the degradation of Satoyama landscapes might change the levels of dissolved organic carbon and nitrogen loads, resulting in imbalances in river-ocean linkages affecting forested catchments and aquatic ecosystems in Japan.

Variations in Optical Scattering and Backscattering by Organic and Inorganic Particulates in Chinese Lakes of Taihu, Chaohu and Dianchi

This study presents an investigation of the scattering and backscattering properties of the particulates in three Chinese inland lakes(the Taihu Lake, the Chaohu Lake and the Dianchi Lake) based on in situ measurements taken at 119 sites. We modeled the particulate scattering spectra using a wavelength-dependent power-law function, finding that the power-law exponents in the Taihu Lake and the Chaohu Lake differ from those in the Dianchi Lake but are similar to the values in the U.S. coastal waters. In contrast to the open ocean, the backscattering properties in the three lakes can not be determined only from chlorophyll-a concentration. The backscattering ratio spectra exhibit a wavelength dependence feature in all three lakes, generally decreasing with the increasing wavelength. Analysis results of the correlations between the backscattering ratio and the individual water quality parameters clearly show that there are distinctive relations among the three lakes, attributed primarily to different compositions of optically active materials in the three lakes. Analysis of the mass-specific scattering and backscattering coefficients shows that the coefficients at wavelength 532 nm in the Taihu Lake and Chaohu Lake are similar, but they are apparently different from those in the Dianchi Lake. Lastly, Model I multiple linear regressions were adopted to partition the mass-specific cross-sections for scattering and backscattering into organic and inorganic cross-sections to further interpret the scattering and backscattering properties. The relative contribution of organic and inorganic particulates to scattering and backscattering is clearly different among the three lakes. The scattering and backscattering properties of the particulates in the three inland lakes vary significantly based on our collected data. The results indicated that the existing semi-analytical water quality retrieval models of the Taihu Lake can not be applied perfectly to the Chaohu Lake and the Dianchi Lake.

糖类化合物碳稳定同位素分析技术及其在土壤碳代谢研究中的应用

糖类化合物是土壤有机质的重要组成部分,是土壤微生物的主要碳源和能源,在维持土壤有机质的稳定性方面起着重要作用。稳定同位素是一种天然的示踪物,通过碳稳定同位素标记技术,可以追踪糖类化合物在植物-土壤-微生物间的流通,量化土壤糖类化合物的转化与累积效率,有助于推进对土壤碳代谢过程的深入理解。本研究综述了土壤糖类化合物的种类、来源、前处理和碳稳定同位素丰度分析方法,重点介绍了气相色谱-稳定同位素质谱法(GC-C-IRMS)的衍生方法及各方法的优缺点,简要概述了碳稳定同位素技术在土壤糖代谢研究中的应用现状,并对其应用前景进行了展望。

耕层厚度对华北高产灌溉农田土壤有机碳储量的影响

针对华北平原长期少免耕可能导致的耕层变浅、变紧的问题,通过人为设置不同耕层厚度试验,采用等质量土壤有机碳库储量和层化比的研究方法,研究了4种耕层厚度(10、20、30、40cm)水平下0～50cm土壤有机碳的变化。2a的田间试验结果表明,不同耕层厚度对土壤有机碳含量有显著差异,与2007年试验开始时相比,土壤有机碳质量分数都不同程度下降,下降幅度为22%～48%。利用等质量计算方法表明20cm耕层厚度的处理土壤有机碳储量最高。通过层化比的研究表明,随着时间的推移,20cm的耕层厚度层化比最高,其土壤质量较好。总之,不同耕层厚度对耕层有机碳的影响不同,短期内耕层厚度为20cm的土壤有机碳含量和储量最高,过厚或过薄都不利于土壤有机碳储量的增加。

元素分析仪-同位素比值质谱仪测定海洋沉积物有机碳稳定同位素方法初探

初步建立了利用元素分析仪-同位素比值质谱仪(EA-IRMS)联用技术测定海洋沉积物中有机碳稳定同位素的方法。标定了标准工作参考气CO2(δ13CvsPDB为-32.053‰);验证了仪器的稳定性,标准偏差为0.009‰;当离子流强度范围为0.4～8.7 V时,总体线性为0.0337‰/V,小于仪器线性指标0.06‰/V的要求;同时测定了国家标准物质GBW 04408、国际标准物质Urea和海洋沉积物样品M01的精密度和准确度,标准偏差在0.04‰～0.13‰范围内;并在三家实验室进行了测量比对实验,标准偏差小于0.20‰,满足地质样品再现性0.5‰的要求。所选样品区域δ13Corg范围为-25.29‰～-22.30‰,表明该海域总有机碳是陆源和海源两种来源的混合物。

浸提条件对黑土表层土壤溶解性有机碳浸提量的影响

摘要：为进一步验证浸提条件对黑土表层土壤溶解性有机碳（DOC）浸提量的影响，并筛选出适于比较黑土区不问土地利用类型土壤DOC差异的浸提条件，以典型黑土区落叶松人工林、天然草地、耕地和天然次生林0～10cm土层土壤为实验材料，测定了不同水土质量比、浸提剂种类及温度条件下4种土地利用类型表层土壤溶解性有机碳浸提量。结果表明：1）4种土地利用类型表层土壤溶解性有机碳浸提量均随水土质量比的增加而增大，呈显著的线性关系（R。为0．82～0．98）；当水土质量比为40：1时4种样地土壤DOC浸提量差异显著（P〈0．05），且以天然次生林土壤DOC最高，分别为落叶松人工林、草地和耕地的1．16、1．88和1．61倍。2）浸提剂种类不同对表层土壤DOC测定结果具有一定影响，其中以去离子水提取的土壤DOC较大。3）在20～70℃范围内，DOC浸提量随浸提温度的升高呈现无明显规律性，其中以70℃时4种样地表层土壤DOC浸提量差异显著（P〈0．05）。可以认为40：1的水土质量比、去离子水作浸提剂的浸提条件可以反映黑土区不同土地利用类型表层土壤DOC之间的差异。

果品产地溯源技术研究进展及其在南果梨产地溯源的应用展望

南果梨果实品质极优,特别是经过后熟产生的酒香,是辽宁省名优水果。作为一种地理标志产品,南果梨产地溯源研究较少。目前对南果梨的元素含量、香气成分、糖酸比例等营养成分的研究主要是基于其采摘、加工和贮藏的目的。本文总结了近年来元素组成、有机成分及稳定同位素技术在水果类农产品产地源领域的基本原理和应用现状;提出了将元素指纹、化学指纹、同位素指纹分析结合,借助多元判别分析筛选指示性强的指标组合,可提高对地域相近或品种相似的产品的判别精度,是未来产地溯源技术的发展方向。同时总结了南果梨有机和无机成分的研究实例,重点分析了品质指标与地理环境、成熟度的相关性,探讨各类技术在南果梨产地溯源中的应用前景,从而为鞍山南果梨的原产地保护提供有效的技术手段。

树麻雀代谢率和器官重量在季节驯化中表型的可塑性变化(英文)

动物能量代谢的生理生态特征与物种的分布和丰富度密切相关,基础代谢率(BMR)是内温动物能量预算的重要组成部分。北温带的小型鸟类,通过增加产热来适应低温环境。增加BMR的基础之一是中心器官(代谢机器)发生明显的变化。本研究中我们测定了树麻雀(Passermontanus)的BMR、体重和各器官的重量,分析了麻雀各器官的季节性变化及与BMR的关系。方差分析表明:麻雀的BMR存在明显的季节性变化,在冬季和秋季较高。麻雀内部器官的变化同样有明显的季节性,冬季和秋季麻雀的肝脏、心脏、肌胃、小肠、直肠和整体消化道的重量,都有明显的增加。相关分析表明:麻雀的BMR与肝脏、心脏和消化道等内部器官存在明显的相关性。我们的结果验证了“中心限制假说”,即麻雀体内存在着与BMR相关的“代谢机器”,中心器官是提高麻雀BMR的基础之一。

基于氮稳定同位素比例质谱和液相色谱-高分辨质谱的有机番茄鉴别

为了解决有机食品鉴别需要多种参数指标进行综合判定,制样过程繁琐,判别正确率偏低的问题,本研究提出一种基于稳定同位素比例质谱和液相色谱-高分辨质谱分析技术,结合偏最小二乘法判别分析(partial least squares-discriminant analysis,PLS-DA)的有机番茄鉴别方法。将采集的94个番茄样品(有机番茄50个,普通番茄44个)匀浆破碎、冷冻干燥后,分析并采集氮同位素比值(δ^(15)N)和液相色谱-高分辨质谱数据,应用PLS-DA方法提取数据信息,建立有机番茄判别模型,筛选并确证出其中判别的标志因子,包括氮同位素比值以及有机酸、黄酮类等13个特征化合物。所建立的模型对有机番茄的判别正确率为93.4%,基本可以满足有机番茄判别的需要。该研究为有机西红柿的快速判定提供了一种新的技术手段。

EA-IRMS法测定不同类型土壤有机碳稳定性同位素组成

利用元素分析仪-稳定同位素比例质谱仪（EA-IRMS）分析系统,以国际标准物质Urea为基准,标定了高纯钢瓶CO2参考气,其δ13CvsPDB值为（-29.523±0.181）‰。通过试验对比检验了EA-IRMS分析系统的稳定性、线性,测定δ13C值的样品分析精度,建立了测定土壤中有机碳稳定性同位素的分析方法。其离子强度在1.0-7.0V之间具有良好的线性,在1.5-5.0V内的线性优于总体线性;样品分析精度优于0.15‰;样品含碳量大于5μg即可满足测定δ13C的分析要求。应用此方法实测了18份不同类型土壤的有机碳稳定同位素组成,获得其13C天然丰度平均值为1.082%;不同类型的土壤有机碳稳定同位素组成存在较大的差异。

不同水氮条件下灌溉方式对玉米干物质量和氮钾利用的影响

由于作物需水随生育期的变化,分根区交替灌溉(AI)的节水效果也会随生育期而发生变化,探明不同生育期分根区交替灌溉对玉米生长和水分养分利用的影响,以期为分根区交替灌溉的实施和充分发挥其节水节肥效果奠定理论基础。通过盆栽试验,在2种灌水水平(正常灌水和轻度缺水)和2种有机无机氮比例(100%无机氮和70%无机氮+30%有机氮)下,以常规灌溉(CI)为对照,分别研究苗期—灌浆初期、苗期—拔节期以及拔节期—抽雄期进行AI对玉米干物质量、氮钾含量和吸收量以及土壤碱解氮和速效钾含量的影响。结果表明,在轻度缺水和有机无机氮肥配施下,与CI相比,拔节期—抽雄期分根区交替灌溉玉米地上部和总干物质量分别增加29.6%和27.4%,地上部和总N吸收量增加50.7%和50.4%。与单施无机氮肥相比,有机无机氮肥配施会在不同程度上增加地上部和总N吸收量,但是一般降低土壤碱解氮和速效钾含量,这说明在轻度缺水和有机无机N肥配施下,拔节期—抽雄期进行分根区交替灌溉提高玉米总干物质量和N吸收量。

煤系有机质多阶段成气的分子碳同位素表征及其对高过成熟干酪根生气潜力评价的启示

采用开放体系在线程序升温裂解-色谱-碳同位素比值质谱技术(PY/GC-IRMS)考察了煤系有机质热演化过程中甲烷瞬时生成速率与碳同位素组成特征,提出煤系有机质不同热演化进程甲烷生成的四个阶段:生油窗阶段、主生气阶段、晚期生气阶段(芳环侧链断裂)、开环-缩聚作用阶段。以一级反应动力学为基础,采用高斯分布算法,计算了各阶段甲烷产出的动力学参数。研究结果对煤成气资源量的正确评价,特别是近年来有机质高演化阶段成气潜力的评价具有重要指示意义。

有机朗肯循环烟气余热系统工质选择

为研究非共沸混合工质的蒸发换热特性,得到换热过程最接近理想换热的工质,本文选取R245fa+cyclohexane作为混合工质组元,建立蒸发换热段数学模型,并对不同配比下混合工质的最佳烟气进口温度及火用损比进行分析,从而得到不同工质的最佳烟温和最理想的工质配比。结果表明:不同配比的混合工质存在不同的最佳烟气进口温度;R245fa+cyclohexane在配比为0.56+0.44时火用损比最小,换热过程最接近理想换热。

非共沸混合工质在低温余热回收系统中的特性模拟

通过模拟非共沸混合工质和纯工质在低温烟气有机朗肯循环(ORC)系统中的特性,考察了不同质量比下的混合工质的热力学特性和经济特性,并与纯工质进行对比。结果表明:混合工质在基本ORC系统中的热效率和质量流量介于其组元纯质之间,但在加装回热器后,部分混合工质的系统热效率优于纯工质,且混合工质较纯工质具有更小的膨胀比和单位功量;含有1种相同组元的二元混合工质,其组元之间临界温度差越大,热力学性能变化幅度越大。

针对蛋白粉生产工艺尾气的竖直逆流喷淋热回收塔的实验研究

大豆蛋白粉生产工艺的高温尾气直接排放到大气中会造成环境污染及能源浪费等,据此提出了采用竖直逆流喷淋塔进行尾气余热回收的技术方案,并且搭建了相应的实验台,分析了各参数对喷淋塔热回收性能的影响。结果表明:适度减小喷淋密度和增大风水比均可提升换热效率,而提高喷淋密度和喷淋水进口温度、减小风水比则会使回收的热量增加。因此在实际工程中需综合考虑初投资、回收热量、换热效率及安全性等因素,以确定适宜的运行参数。

加速器质谱测量树木年轮中不可交换有机氚的样品制备方法

树木年轮具有良好的分年特性,其中的纤维素不会被分解供能,纤维素中不可交换有机氚(Nonexchangeable organically bound tritium, NE-OBT)难与其它物质产生交换,无流动性,能够准确地反映环境中的历史氚水平。使用加速器质谱(Accelerator mass spectrometry, AMS)进行测量,只需10 mg纤维素和200 s测量时间,比传统液体闪烁计数法更适于测定树木年轮中的NE-OBT。本研究改进了树木年轮中NE-OBT的AMS样品的制备过程。用次氯酸钠处理法取代酸碱酸处理法提取样品的纤维素,使纤维素的纯度从64.8%提升至83.9%。通过两步法将提取得到的纤维素转化为加速器质谱可以测量的氢化钛粉末样品。严格控制高温氧化时的纤维素量在10.00～10.05 mg之间、高温氧化时间从4 h延长到10 h、水在真空系统中的转移时间在1 min以上和冷阱温度在-88℃～-80℃之间,采用开门冷却等手段和措施,实现了AMS样品制备过程中同位素效应的稳定,建立了规范的NE-OBT AMS制样流程。在T/H的同位素丰度比为10~5～10~7TU时,标样的加速器质谱测量结果与液体闪烁计数法测量结果双对数线性回归拟合的相关性系数R^2=0.99912,表明本研究制备的样品能够用于加速器质谱测量,通过多量级标样标定校准后,可以得到准确的测量数值。

元素分析-同位素比值质谱法测量海洋沉积物中有机碳和氮稳定同位素组成的实验室间比对研究

海洋沉积物中有机碳、氮稳定同位素(δ13 C、δ15 N)作为一种有效指标,可对不同地质时期空气、温度、降水等参数的变化进行标记。元素分析-同位素比值质谱法是一种测量海洋沉积物有机碳、氮稳定同位素组成的合理、有效的方法。目前我国有诸多实验室使用元素分析仪(EA)与稳定同位素比值质谱仪(IRMS)联用的方法对沉积物中的有机碳、氮稳定同位素进行测试。各实验室之间测试技术及数据稳定性缺少比对依据,测试结果缺乏有效的溯源,使用过程中缺乏规范和统一。本文选取了我国2018年研制的三个国家一级海洋沉积物碳氮稳定同位素标准物质(GBW04701、GBW04702、GBW04703)及两个国际标准物质(EMA-B2152、EMA-B2151),在我国十家实验室对EA-IRMS在线技术测试方法进行实验室间的测量比对实验,以验证方法的稳定性、精密度和准确度。测试结果表明:各家协作实验室的数据准确、稳定,方法的重复性和再现性良好,测得的δ13 C和δ15 N精密度分别好于0.10‰、0.14‰。通过比对研究,同时证明了EA-IRMS在线技术适用于海洋沉积物中的有机碳、氮稳定同位素的测定,初步建立了一套适合海洋沉积物样品分析的方法。

枣树根际解磷菌P7的溶磷特性

【目的】为研制适用于南疆枣园的微生物菌肥提供参考。【方法】以南疆枣树根际解磷菌株P7(Bacillus,KF719307.1)为研究对象,通过改变无机磷培养基中碳源、氮源和磷源的类型和比例,测定分析发酵液中水溶性磷含量和pH在120 h内的变化规律,以及不同营养条件下发酵液中有机酸含量和碱性磷酸酶活性的差异。【结果】随着发酵时长的增加,发酵液中水溶性磷含量均呈现先上升、后下降的趋势。当碳源为可溶性淀粉、氮源为硫酸铵、碳氮比(可溶性淀粉和硫酸铵的质量比)为35︰1时,发酵液中水溶性磷含量均在培养96 h时增至最高,分别达到388.5、442.5、446.9 mg/L。当磷源为磷酸钙时,发酵液中水溶性磷含量呈现持续增加的趋势,且在培养120 h时增至最高值362.4 mg/L。发酵液中水溶性磷含量与其pH呈显著负相关,随着发酵时长的增加,pH呈现先下降、后升高的趋势,均在培养96 h时降至最低。解磷菌株P7在不同营养条件下主要分泌苹果酸和丁二酸,柠檬酸、酒石酸、草酸、马来酸和富马酸也有少量分泌。当发酵液中D-半乳糖为碳源、硝酸钾为氮源、磷酸镁为磷源、碳氮比为35∶1时,发酵液中碱性磷酸酶活性均较高,达26.8~28.7 mg/kg。【结论】不同营养因子条件下,解磷菌株P7的溶磷效果有显著差异,其溶磷效果随发酵液pH的降低而升高,pH的变化与有机酸的分泌密切相关。碱性磷酸酶对解磷菌株P7溶解磷酸钙无显著作用。