稳定碳、氮同位素在牛肉加工过程中的分馏效应

为了探究牛肉及副产物中稳定碳、氮同位素在加工过程中的变化规律,确证稳定碳、氮同位素在牛肉加工制品产地溯源中的稳定性和有效性。本试验通过对牛肉进行不同时间的水煮、烤制和油炸3种处理,其中水煮和烤制加工时间分别为5、10、15、20、25和30 min,油炸加工时间分别为1、2、3、4和5 min;采用元素分析仪-稳定同位素比率质谱仪(EA-IRMS)测定脱脂牛肉、粗脂肪及副产物中δ¹³C和δ¹⁵N值。结果表明,脱脂牛肉中δ¹³C值在水煮、烤制和油炸3种加工方式不同加工时间之间均无显著差异,水煮和烤制后粗脂肪中δ¹³C值无显著变化,油炸后的牛肉粗脂肪δ¹³C值主要受植物油的影响,加工方式及加工时间对其无显著影响;水煮脱脂牛肉δ¹⁵N值在加工25、30 min时与对照组牛肉存在显著差异,但平均差值仅为0.3‰~0.9‰。牛肉稳定碳、氮同位素在不同加工过程中分馏效应较小,可有效用于牛肉加工半成品及成品的原产地溯源。     

Changes in forest soil organic matter pools after a decade of elevated CO2 and O3

The impact of rising atmospheric carbon dioxide (CO₂) may be mitigated, in part, by enhanced rates of net primary production and greater C storage in plant biomass and soil organic matter (SOM). However, C sequestration in forest soils may be offset by other environmental changes such as increasing tropospheric ozone (O₃) or vary based on species-specific growth responses to elevated CO₂. To understand how projected increases in atmospheric CO₂ and O₃ alter SOM formation, we used physical fractionation to characterize soil C and N at the Rhinelander Free Air CO₂-O₃ Enrichment (FACE) experiment. Tracer amounts of ¹⁵NH₄⁺ were applied to the forest floor of Populus tremuloides, P. tremuloides-Betula papyrifera and P. tremuloides-Acer saccharum communities exposed to factorial CO₂ and O₃ treatments. The ¹⁵N tracer and strongly depleted ¹³C-CO₂ were traced into SOM fractions over four years. Over time, C and N increased in coarse particulate organic matter (cPOM) and decreased in mineral-associated organic matter (MAOM) under elevated CO₂ relative to ambient CO₂. As main effects, neither CO₂ nor O₃ significantly altered ¹⁵N recovery in SOM. Elevated CO₂ significantly increased new C in all SOM fractions, and significantly decreased old C in fine POM (fPOM) and MAOM over the duration of our study. Overall, our observations indicate that elevated CO₂ has altered SOM cycling at this site to favor C and N accumulation in less stable pools, with more rapid turnover. Elevated O₃ had the opposite effect, significantly reducing cPOM N by 15% and significantly increasing the C:N ratio by 7%. Our results demonstrate that CO₂ can enhance SOM turnover, potentially limiting long-term C sequestration in terrestrial ecosystems; plant community composition is an important determinant of the magnitude of this response.     

Compartmentalization of the soil animal food web as indicated by dual analysis of stable isotope ratios (N/N and C/C)

The soil animal food web has become a focus of recent ecological research but trophic relationships still remain enigmatic for many taxa. Analysis of stable isotope ratios of N and C provides a powerful tool for disentangling food web structure. In this study, animals, roots, soil and litter material from a temperate deciduous forest were analysed. The combined measurement of δ¹⁵N and δ¹³C provided insights into the compartmentalization of the soil animal food web. Leaf litter feeders were separated from animals relying mainly on recent belowground carbon resources and from animals feeding on older carbon. The trophic pathway of leaf litter-feeding species appears to be a dead end, presumably because leaf litter feeders (mainly diplopods and oribatid mites) are unavailable to predators due to large size and/or strong sclerotization. Endogeic earthworms that rely on older carbon also appear to exist in predator-free space. The data suggest that the largest trophic compartment constitutes of ectomycorrhizal feeders and their predators. Additionally, there is a smaller trophic compartment consisting of predators likely feeding on enchytraeids and potentially nematodes.     

稻草及其制备的生物质炭对土壤团聚体有机碳的影响

向土壤中添加生物质炭已被认为是改善土壤质量,增加碳吸存的有效措施。通过模拟实验,利用同位素δ13C标记技术,研究稻草及其制备的生物质炭添加对土壤团聚体有机碳的影响。结果表明：稻草和生物质炭对土壤团聚体中新形成碳和原有机碳的影响截然不同。培养112 d,来自稻草或生物质炭的新碳主要进入到中团聚体（50 ~ 250 μm）中,比例为70.3% ~ 75.3%。与对照土壤相比,稻草添加显著促进了大团聚体（250 ~ 2 000 μm）原有机碳的分解（p <0.05）,但对中团聚体和微团聚体（<50 μm）原有机碳的影响并不明显,而生物质炭添加（SB250和SB350）则对大团聚体和中团聚体原有机碳没有显著影响,但SB250处理（土壤中加入250℃热解制备的生物质炭）显著抑制了微团聚体原有机碳的分解（p <0.05）,而SB350处理（土壤中加入350℃热解制备的生物质炭）的则无影响。对于同一粒级团聚体,稻草与生物质炭处理的区别,主要体现在新碳分配上,而对原有机碳的影响并不显著。     

抽穗后干旱复水对双季杂交晚稻产量形成和叶片δ13C及内源激素水平的影响

为探明生育后期干旱复水对双季杂交晚稻不同产量潜力品种产量的影响及其形成的生理机制,选择超级稻品种五丰优T025和对照品种金优207,于抽穗后进行干旱8d复水处理,分析了2个品种结实和产量、干旱前后倒二叶稳定碳同位素组成(δ13C)及内源激素含量的差异性。结果表明,干旱复水处理下2个品种水稻的结实率、千粒重及单株产量较对照(保持水层)表现出不同程度下降。其中,结实率五丰优T025和金优207分别下降12.07%和7.67%,千粒重下降5.23%和9.09%,单株产量下降13.54%和27.14%,差异均达显著或极显著水平,未发现产量补偿效应。抽穗后干旱处理下倒二叶δ13C值,五丰优T025大幅上升,复水后呈现出先下降,至第6天又开始上升的特点,金优207则大幅下降,复水后呈现先上升后下降再上升的特点,五丰优T025较金优207干旱复水处理与对照之间的差距更大。总体上,对照条件下,抽穗至其后20d,随生育推进,2个品种倒二叶内源ABA和GA₃含量呈上升而IAA含量则下降趋势,ZR表现出先上升再下降特点。干旱处理下2个品种表现为ABA含量上升,复水后呈先下降后上升特点,五丰优T025较金优207处理与对照之间差距更大;干旱复水处理条件下:2个品种IAA含量均下降,五丰优T025处理与对照间的差距明显小于金优207;五丰优T025 GA₃含量表现出先上升后下降再上升,金优207表现出干旱处理结束日急剧下降至最低点,复水后缓慢上升特点;2个品种ZR含量呈现出先上升至最高值再下降特点,五丰优T025较金优207处理与对照之间差距更小。抽穗后干旱处理将启动稻株体内抗衰老机制,复水后将在一定程度一定时间内激活稻株体内生长促进因子并抑制生长抑制因子,但其效果十分有限。     

稳定13C同位素示踪技术在农田土壤碳循环和团聚体 固碳研究中的应用进展

农田土壤有机碳库是全球碳循环的重要组成部分,其积累和分解直接影响陆地生态系统碳贮藏与全球碳平衡。土壤团聚体是土壤结构的物质基础和土壤肥力的重要载体,也是土壤有机碳的固定场所。稳定~(13)C同位素示踪技术是研究土壤碳动态变化的有效手段,能够揭示新输入碳在土壤及团聚体中赋存状态、周转过程以及微生物的调节机制。本文主要归纳与阐述了稳定~(13)C同位素示踪技术在农田土壤有机碳循环及土壤团聚体固碳机理方面的研究进展,提出~(13)C同位素示踪技术在未来土壤碳循环和固碳机制方面的主要研究方向。     

Effects of part and whole straw returning on soil carbon sequestration in C3–C4 rotation cropland

Long‐term no‐tillage management and crop residue amendments to soil were identified as an effective measure to increase soil organic carbon (SOC). The SOC content, SOC stock (SOCs), soil carbon sequestration rate (CSR), and carbon pool management index (CPMI) were measured. A stable isotopic approach was used to evaluate the contributions of wheat and maize residues to SOC at a long‐term experimental site. We hypothesized that under no‐tillage conditions, straw retention quantity would affect soil carbon sequestration differently in surface and deep soil, and the contribution of C3 and C4 crops to soil carbon sequestration would be different. This study involved four maize straw returning treatments, which included no maize straw returning (NT‐0), 0.5 m (from the soil surface) maize straw returning (NT‐0.5), 1 m maize straw returning (NT‐1), and whole maize straw returning (NT‐W). The results showed that in the 0–20 cm soil layer, the SOC content, SOCs, CSR and CPMI of the NT‐W were highest after 14 years of no‐tillage management, and there were obvious differences among the four treatments. However, the SOC, SOCs, and CSR of the NT‐0.5 and NT‐W were the highest and lowest in 20–100 cm, respectively. The value of δ¹³C showed an obviously vertical variability that ranged from –22.01‰ (NT‐1) in the 0–20 cm layer to –18.27‰ (NT‐0.5) in the 60–80 cm layer, with enriched δ¹³C in the 60–80 cm (NT‐0.5 and NT‐1) and 80–100 cm (NT‐0 and NT‐W) layers. The contributions of the wheat and maize‐derived SOC of the NT‐0.5, NT‐1 and NT‐W increased by 11.4, 29.5 and 56.3% and by 10.7, 15.1 and 40.1%, relative to those in the NT‐0 treatment in the 0–20 cm soil layer, respectively. In conclusion, there was no apparent difference in total SOC sequestration between the NT‐0.5, NT‐1, and NT‐W treatments in the 0–100 cm soil layer. The contribution of wheat‐derived SOC was higher than that of maize‐derived SOC.     

不同施肥处理对光合碳在花生-土壤系统中分配的影响

通过室内花生盆栽,设置NPK(常规氮磷钾施肥)、NPKS(常规氮磷钾加玉米秸秆)、NPKA(常规氮磷钾加腐殖酸)和CK(不施肥对照)4个不同的施肥处理,采用3次~(13)CO2脉冲标记的方法对不同施肥处理下光合碳在花生-土壤系统中的分配进行定量研究。结果表明:不同施肥处理对标记期内花生总生物量影响不显著,但是NPKA处理显著提升了花生根系生物量,较CK、NPK和NPKS分别高22.04%、19.47%和53.38%。NPKS处理地上部~(13)C丰度最高,但土壤中~(13)C丰度最低,NPKA处理土壤中~(13)C丰度最高。各处理地上部的~(13)C含量无显著差异,NPKA处理根系的~(13)C含量显著高于NPK且土壤~(13)C含量显著高于其他处理。NPKA处理地上部的~(13)C分配比例最低而土壤中分配比例最高,根系~(13)C分配比例与其他处理无显著差异,根系与土壤~(13)C分配比例之和显著高于其他处理。本研究表明腐殖酸能显著促进花生光合碳向地下部的转运。     

大豆RING/U-box蛋白Glyma.13G115900的克隆及其对非生物胁迫的应答

课题组前期对干旱胁迫下大豆转录组的数据分析发现大豆Glyma.13G115900基因编码一个RING/U-box蛋白,其表达水平受干旱胁迫影响显著。本研究以垦丰16大豆为试验材料,克隆Glyma.13G115900基因。氨基酸多重序列比对表明其编码的蛋白与其它物种都具有高度保守的RING/U-box结构域。构建原核表达载体pET-29b-Glyma.13G115900转化到大肠杆菌中,Glyma.13G115900蛋白在大肠杆菌中能够表达。荧光定量PCR分析表明Glyma.13G115900基因的表达量受PEG、NaCl和ABA的影响显著,但基本不受冷胁迫的诱导。经PEG和NaCl处理后,该基因表达量与CK相比呈现出显著下降的趋势,PEG处理的表达量变化比NaCl下调的更明显;在ABA诱导下与CK相比该基因的mRNA丰度呈现出先上升后下降的趋势,在4 h表达量出现峰值,推测该基因可能通过依赖于ABA途径参与非生物胁迫应答。以上结果为进一步深入研究该基因的调控途径奠定基础。     

蔬菜中13种有机磷农药基质效应研究

有机磷农药在农业生产中广泛应用,用气相色谱法进行农药残留检测容易产生基质效应,影响分析结果的可靠性,为研究用气相色谱法进行农残检测过程中有机磷农药在不同蔬菜中的基质效应,选取瓜类、茄果类、叶菜类3类常见蔬菜和13种有机磷农药进行研究,对影响基质效应的因素采取不同变量法进行分析,得出结论:有机磷农药在叶菜类蔬菜中基质效应最大;含有P=O键农药基质效应更强;基质含量越多基质效应越强,并对在检测如何减少基质效应给出了建议.