亚热带杉木林土壤有机碳及其活性组分对氮磷添加的响应

通过野外氮、磷添加,分析N₀(0 kg N·hm^-2·a^-1)、N₁(50 kg N·hm^-2·a^-1)、N₂(100 kg N·hm^-2·a^-1)、P(50 kg P·hm^-2·a^-1)、N₁P和N₂P等6种处理3年后对亚热带杉木人工林土壤有机碳(SOC)、颗粒有机碳(POC)和水溶性有机碳(WSOC)的影响.结果表明:氮、磷添加对0～20 cm土层SOC含量无显著影响.磷添加显著降低0～5 cm土层POC含量,与无磷处理相比,加磷处理POC含量降低26.1%.WSOC含量对氮、磷添加的响应主要表现在0～5 cm土层,低水平氮添加和磷添加显著提高WSOC含量.在0～5 cm土层,氮添加对POC/SOC值无显著影响,而与无磷添加相比,POC/SOC值在磷添加处理下显著降低15.9%.在5～10和10～20 cm土层,氮、磷添加处理对POC/SOC值无显著影响.在亚热带地区,森林土壤碳稳定性主要受磷含量的调控,短期磷添加易导致表层土壤活性有机碳分解,增加土壤碳稳定性.     

Litter age interacted with N and P addition to impact soil N2O emissions in Cunninghamia lanceolata plantations

凋落物年龄和氮、磷添加交互作用对杉木林土壤N₂O排放的影响 氧化亚氮(N₂O)是一种重要的温室气体，增温潜势较大，其浓度增加影响全球气候变化。由于凋落物分解影响碳和养分循环，土壤N₂O排放受凋落物分解作用，而凋落物年龄和氮、磷添加影响凋落物分解，潜在影响土壤N₂O的排放。然而，凋落物年龄和养分添加对土壤N₂O排放的交互作用及其机制目前还没有报道，这限制了凋落物分解对N₂O排放的影响评价。本研究以杉木(Cunninghamia lanceolata)不同年龄凋落物为研究对象，通过氮、磷添加处理，研究了养分和凋落物年龄对N₂O排放的影响及其机制。研究结果显示，幼龄凋落物主要通过调节碳氮比来影响N₂O排放。氮添加主要通过调节凋落物碳氮比、土壤pH以及与N₂O产生相关的微生物功能基因所编码的土壤酶活性来影响N₂O排放，整体上促进N₂O排放。磷添加显著降低凋落物碳氮比，进而作用于N₂O排放，该途径促进N₂O排放。同时，磷添加提高土壤有效磷水平，潜在降低N₂O排放，整体上降低土壤N₂O排放。凋落物年龄和养分添加交互作用于土壤N₂O排放。因此，在森林经营管理中，评价不同管理措施，尤其是间伐和选择性砍伐等导致不同凋落物输入的管理活动对土壤N₂O排放的影响时，应同时考虑养分输入和凋落物年龄的潜在影响。     

采伐对小兴安岭森林沼泽非生长季土壤温室气体排放的影响

中高纬度地区非生长季温室气体排放对生态系统碳、氮循环具有重要影响,但采伐干扰如何影响森林沼泽非生长季土壤温室气体排放尚不明确.本研究采用静态箱-气相色谱法,观测小兴安岭4种森林沼泽(毛赤杨沼泽、白桦沼泽、落叶松苔草沼泽、落叶松藓类沼泽)不同采伐方式下(对照、择伐45%、皆伐,试验处理已10年)非生长季土壤CO₂、CH₄、和N₂O通量及其相关环境因子(温度、湿度及碳氮含量等),分析采伐干扰对温带森林沼泽非生长季土壤温室气体排放的影响规律及主控因子.结果表明: 采伐干扰10年后,4种森林沼泽土壤CO₂、CH₄和N₂O非生长季平均通量分别在53.08～81.31 mg·m^-2·h^-1、0.09～3.07 mg·m^-2·h^-1和4.07～8.83 μg·m^-2·h^-1,其中,皆伐显著提高毛赤杨沼泽和落叶松藓类沼泽非生长季土壤CO₂、CH₄和N₂O排放量,择伐显著提高白桦沼泽、落叶松藓类沼泽及降低毛赤杨沼泽的CO₂排放量,且显著降低4种森林沼泽CH₄排放量及落叶松苔草沼泽的N₂O排放量;天然森林沼泽非生长季土壤CO₂排放受土壤温度、有机碳含量及C/N调控,CH₄受土壤温度、有机碳含量调控,N₂O受气温、土壤pH调控,采伐增加了CO₂排放与气温、土壤含水量及积雪深度的相关性,增加了CH₄排放与气温、土壤含水量、C/N的相关性,增加了N₂O排放与土壤全氮和C/N的相关性;温带天然森林沼泽非生长季土壤CO₂、CH₄和N₂O的年贡献率分别为33.2%～46.5%、6.3%～9.1%和61.5%～68.3%,皆伐提高了白桦沼泽和落叶松藓类沼泽CO₂年贡献率和除落叶松藓类沼泽外其他样地的N₂O年贡献率,择伐提高了落叶松苔草沼泽、落叶松藓类沼泽CO₂、CH₄和N₂O年贡献率,但降低了白桦沼泽3种气体年贡献率.温带天然森林沼泽非生长季土壤N₂O和CO₂的年贡献率相对较大,皆伐使两者年贡献率进一步提高,择伐却较大幅度提高了其CH₄的年贡献率.     

缓/控释尿素对稻田周年CH4和N2O排放的影响

通过田间试验研究了不同缓/控释尿素对水稻产量和稻田周年温室气体排放的影响,评估生产单位质量水稻的温室气体排放量.结果表明: 优化施肥(OPT)处理在减氮(N)21.4%条件下产量与习惯施肥(FFP)处理持平,同时减少了稻田周年CH₄和N₂O的排放,其中水稻季CH₄和N₂O分别减排12.6%和12.5%,休闲季N₂O减排33.3%.与OPT处理相比,控释尿素(CRU)处理在水稻季CH₄减排28.9%,休闲季CH₄零排放;硝化抑制剂(DMPP)处理在水稻季CH₄和N₂O分别减排41.6%和85.7%,休闲季CH₄和N₂O分别减排76.9%和6.5%.休闲季节N₂O排放占周年N₂O排放的76.8%～94.9%,是评价整个稻田温室气体排放不容忽视的因素.OPT、CRU和DMPP处理生产1.0 kg稻谷的温室气体排放强度分别为0.50、0.41和0.33 kg·kg^-1,综合考虑周年的温室气体排放总量和产量,尿素和硝化抑制剂配合施用可以在保证水稻产量的情况下,减少温室气体的排放.     

缓/控释尿素对稻田周年CH4和N2O排放的影响

通过田间试验研究了不同缓/控释尿素对水稻产量和稻田周年温室气体排放的影响,评估生产单位质量水稻的温室气体排放量.结果表明: 优化施肥(OPT)处理在减氮(N)21.4%条件下产量与习惯施肥(FFP)处理持平,同时减少了稻田周年CH₄和N₂O的排放,其中水稻季CH₄和N₂O分别减排12.6%和12.5%,休闲季N₂O减排33.3%.与OPT处理相比,控释尿素(CRU)处理在水稻季CH₄减排28.9%,休闲季CH₄零排放;硝化抑制剂(DMPP)处理在水稻季CH₄和N₂O分别减排41.6%和85.7%,休闲季CH₄和N₂O分别减排76.9%和6.5%.休闲季节N₂O排放占周年N₂O排放的76.8%～94.9%,是评价整个稻田温室气体排放不容忽视的因素.OPT、CRU和DMPP处理生产1.0 kg稻谷的温室气体排放强度分别为0.50、0.41和0.33 kg·kg^-1,综合考虑周年的温室气体排放总量和产量,尿素和硝化抑制剂配合施用可以在保证水稻产量的情况下,减少温室气体的排放.     

Responses of soil N2O emissions to experimental warming regulated by soil moisture in an alpine steppe

土壤氧化亚氮(N₂O)排放是大气N₂O不可忽视的来源。然而, 目前学术界在气候变暖对土壤N₂O排放影响方面的认识仍存在较大争议, 且调控土壤N₂O排放的微生物机制尚不明确。为此, 该研究以青藏高原高寒草原生态系统为研究对象, 使用透明开顶箱(OTCs)模拟气候变暖, 并基于静态箱法测定了2014和2015年生长季(5-10月)的土壤N₂O通量, 同时利用定量PCR技术测定了表层(0-10 cm)土壤中氨氧化古菌(AOA)和氨氧化细菌(AOB)的基因丰度。结果显示: 增温处理导致2014和2015年生长季表层(0-10 cm)土壤温度分别升高了1.7 ℃和1.6 ℃, 土壤体积含水量下降了2.5%和3.3%, 其他的土壤理化性质没有发生显著变化。土壤N₂O通量呈现年际差异, 2014和2015年生长季的平均值分别为3.23和1.47 μg·m ^-2·h ^-1, 然而, 增温处理并没有显著改变土壤N₂O通量。2014年生长季主导硝化作用的AOA和AOB的基因丰度分别为5.0 × 10 ⁷和4.7 × 10 ⁵拷贝·g ^-1, 2015年为15.2 × 10 ⁷和10.0 × 10 ⁵拷贝·g ^-1。尽管基因丰度存在显著的年际差异, 但在两年中与对照相比并未发生显著变化。在生长季尺度上, 增温导致的土壤N₂O变化量与其引起的土壤水分变化量之间显著正相关, 而与土壤温度的变化量之间没有显著相关关系。以上结果表明, 增温导致的土壤干旱会抑制土壤N₂O通量对增温的响应, 意味着未来评估气候变暖情景下土壤N₂O排放量时需考虑增温引发的土壤干旱等间接效应。     

有机、无机氮肥施用对苜蓿产量、土壤硝态氮和温室气体排放的影响

2012年5月—2014年6月,采用田间小区试验方法,研究了不同氮肥管理对N₂O与CH₄的排放、土壤硝态氮含量以及苜蓿干草产量的影响.试验共设5个处理:对照(CK)、单施尿素处理(100 kg N·hm^-2, CF)、尿素(100 kg N·hm^-2)与腐熟牛粪(60 kg N·hm^-2)混施处理(DM₁)、尿素(100 kg N·hm^-2)与沼液(60 kg N·hm^-2)混施处理(DT)及减量尿素(40 kg N·hm^-2)与牛粪(60 kg N·hm^-2)混施处理(DM₂).结果表明: 与CK相比,CF、DM₁、DT和DM₂处理苜蓿干草产量分别增加44.2%、38.9%、56.3%和30.6%,N₂O排放分别比对照增加52.2%、89.1%、133.7%和59.4%,但各施肥处理对甲烷吸收表现出不同程度的抑制作用.苜蓿生产中,尿素和牛粪处理N₂O-N排放与肥料氮素投入量比值(排放系数)为0.25%～0.28%,而沼液处理N₂O-N排放系数为0.64%,显著高于前者.苜蓿生产中,施用化肥或有机无机混施均能显著增加苜蓿干物质产量,土壤硝态氮深层淋洗风险较小,但增加了CO_2-equivalent净排放量.     

加气灌溉对不同施氮水平的设施甜瓜土壤CO2和N2O排放的影响

为探讨不同加气灌溉施氮模式下设施甜瓜土壤CO₂和N₂O排放的动态变化规律及其与土壤温度、湿度的关系,本研究采用密闭静态箱-气相色谱法对加气灌溉不同施氮水平下土壤CO₂和N₂O排放进行监测,并分析了加气灌溉对不同施氮量下土壤CO₂和N₂O排放的影响.试验采用加气灌溉(AI)和不加气灌溉(CK)两种灌溉方式,施氮量设不施氮(N₁)、传统施氮量的2/3(150 kg·hm^-2,N₂)和传统施氮量(225 kg·hm^-2,N₃)3个施氮水平.结果表明:加气灌溉土壤CO₂和N₂O排放量高于不加气灌溉处理,但是差异不显著;相同灌溉模式下,CO₂和N₂O排放量随施氮量的增加而显著增加,施氮量是土壤CO₂和N₂O排放的主要影响因素.加气灌溉条件下,不同施氮处理N₂O排放通量与土壤温度和湿度呈显著正相关,CO₂排放通量与土壤温度呈显著正相关.加气减氮处理在氮肥减少1/3的情况下,甜瓜产量提高了6.9%,温室气体排放引起的增温潜势值从9544.82 kg·hm^-2下降到9340.72 kg·hm^-2.综上,通过加气灌溉减少氮肥施用量来抑制农业生产系统中温室气体排放是可行的.     

加气灌溉对不同施氮水平的设施甜瓜土壤CO2和N2O排放的影响

为探讨不同加气灌溉施氮模式下设施甜瓜土壤CO₂和N₂O排放的动态变化规律及其与土壤温度、湿度的关系,本研究采用密闭静态箱-气相色谱法对加气灌溉不同施氮水平下土壤CO₂和N₂O排放进行监测,并分析了加气灌溉对不同施氮量下土壤CO₂和N₂O排放的影响.试验采用加气灌溉(AI)和不加气灌溉(CK)两种灌溉方式,施氮量设不施氮(N₁)、传统施氮量的2/3(150 kg·hm^-2,N₂)和传统施氮量(225 kg·hm^-2,N₃)3个施氮水平.结果表明:加气灌溉土壤CO₂和N₂O排放量高于不加气灌溉处理,但是差异不显著;相同灌溉模式下,CO₂和N₂O排放量随施氮量的增加而显著增加,施氮量是土壤CO₂和N₂O排放的主要影响因素.加气灌溉条件下,不同施氮处理N₂O排放通量与土壤温度和湿度呈显著正相关,CO₂排放通量与土壤温度呈显著正相关.加气减氮处理在氮肥减少1/3的情况下,甜瓜产量提高了6.9%,温室气体排放引起的增温潜势值从9544.82 kg·hm^-2下降到9340.72 kg·hm^-2.综上,通过加气灌溉减少氮肥施用量来抑制农业生产系统中温室气体排放是可行的.     

大气CO2浓度和气温升高下硝化抑制剂后效对大豆土壤无机氮和N2O排放的影响

为探究气候变化背景下,小麦-大豆轮作体系中小麦季施用硝化抑制剂对大豆土壤无机氮、N₂O排放及相关酶活性的后效作用,在控制气室内设置了不同的大气CO₂浓度(400和600μmol/mol)和气温(环境温度T和T+2℃),在此基础上测定了小麦季添加硝化抑制剂时大豆土壤的硝态氮和铵态氮的含量、土壤硝化-反硝化相关酶活性以及N₂O排放量。结果表明,小麦季添加硝化抑制剂配合麦秸还田,使大豆土壤的硝态氮和铵态氮均有所增加,但是对土壤硝化-反硝化酶的活性影响较小。升温(ET)使大豆土壤硝态氮含量显著增加,而铵态氮含量显著降低;大气CO₂浓度增加(EC)或同时升高气温和CO₂浓度(ECT),土壤硝态氮和铵态氮的含量均有所增加,但与环境高温和CO₂浓度(CK)下的无机氮含量差异不显著。不同环境条件下的土壤硝化-反硝化酶的活性没有明显规律。在ET和ECT条件下,大豆生长季N₂O排放总量均显著高于CK处理,且添加硝化抑制剂使N₂O排放...     

Simulation of spontaneous action potentials of cardiomyocytes in pulmonary veins of rabbits

Atrial fibrillation is the most prevalent arrhythmia, but the mechanisms by which it develops are not clear. Recently, over 90% of paroxysmal atrial fibrillation was found to be located inside the main pulmonary veins (PVs). We found that single cardiac myocytes isolated from the main PVs of rabbits generate spontaneous action potentials (SAP). We therefore assayed the electrical characteristics of these cardiomyocytes. Among the diverse ionic currents identified were I_Na, I_Ca,L, I_K1, I_Kr, I_Ks, I_to, I_Ksus, I_ncx, I_pump, I_KH and I_Cl,Ca. In contrast, I_K1 was minimal, I_Ks could be detected only in the presence of 10 μM forskolin, and we were unable to detect I_f and I_Ca,T, the most important currents for pacemaking activity in sinoatrial node cells. To identify the main cause of SAP, we developed a model that can explain the electrical properties of these cardiomyocytes. After reconstructing the ionic currents based on experimental observations, we were able to use our model to successfully reconstruct the characteristics of the SAP of PV cardiomyocytes. The simulation showed that the major currents contributing to pacemaking depolarization were I_CaL, I_Kr, a background current and Na⁺–K⁺ pump current. Deactivation kinetics of I_Kr was one of the major determinants of the rate of pacemaking depolarization. The steady state inactivation of I_to was shifted to the negative voltage and the activity of I_to was minimal in the range of the SAP. The major currents for the repolarization were I_Kr and I_pump. The amplitude of most currents in these cardiac myocytes was small and no currents did not exceed 30 pA during the SAP, indicating that slight activation of other inward or outward currents will have profound effects on the SAP. To our knowledge, this report is the first to show the simulation of SAP of PV cardiomyocytes. This model may help to study on the electrophysiological basis of paroxysmal atrial fibrillation originating from PVs.     

Hydrodynamics of cryogelation

Cryogel, prevalent in the plasma of rheumatoid arthritis patients, is a plasma fibronectin (pFN)-extra domain A containing FN [EDA(+)FN]-fibrinogen (Fbg) aggregate formed by the addition of heparin (Hep) at low temperature. Although EDA(+)FN is not usually present in normal plasma, its prevalence in rheumatic patients induces cryogelation. In this study, we determined the hydrodynamic radius (R_h) ratio (R_h/R_h30) of the cryogel component by dynamic light scattering in vitro. R_h/R_h30 was normalized to R_h at 30 °C (R_h30) at several temperatures. The R_h/R_h30 of Fbg was found to increase only by self-aggregation, whereas the R_h/R_h30 of FNs does not increase in response to temperature changes. The R_h/R_h30 of the Fbg/FN aggregate is increased by the addition of Hep, and the R_h/R_h30 (12.5) of the Hep-induced EDA(+)FN/Fbg aggregate is greater than that (2.5) of the pFN/Fbg aggregate. These results suggest that cryogelation requires Fbg self-aggregation and the interaction between EDA(+)FN and Hep.     

Regulation of DOPA Decarboxylase Activity in Brain of Living Rat

Abstract: To test the hypothesis that l -DOPA decarboxylase (DDC) is a regulated enzyme in the synthesis of dopamine (DA), we developed a model of the cerebral uptake and metabolism of [³H]DOPA. The unidirectional blood-brain clearance of [³H]DOPA ( K ^D₁) was 0.049 ml g⁻¹ min⁻¹. The relative DDC activity ( k ^D₃) was 0.26 min⁻¹ in striatum, 0.04 min⁻¹ in hypothalamus, and 0.02 min⁻¹ in hippocampus. In striatum, 3,4-[³H]dihydroxyphenylacetic acid ([³H]DOPAC) was formed from [³H]DA with a rate constant of 0.013 min⁻¹, [³H]homovanillic acid ([³H]HVA) was formed from [³H]DOPAC at a rate constant of 0.020 min⁻¹, and [³H]HVA was eliminated from brain at a rate constant of 0.037 min⁻¹. Together, these rate constants predicted the ratios of endogenous DOPAC and HVA to DA in rat striatum. Pargyline, an inhibitor of DA catabolism, substantially reduced the contrast between striatum and cortex, in comparison with the contrast seen in autoradiograms of control rats. At 30 min and at 4 h after pargyline, k ^D₃ was reduced by 50% in striatum and olfactory tubercle but was unaffected in hypothalamus, indicating that DDC activity is reduced in specific brain regions after monoamine oxidase inhibition. Thus, DDC activity may be a regulated step in the synthesis of DA.     

Effect of temperature on swimming performance of sea bass juveniles

At four temperatures ( T= 15, 20, 25 and 28° C) swimming performance of Dicentrarchus labrax was significantly correlated with total length (23–43 mm L _T); r²=0.623–0.829). The relative critical swimming speed ( RU _crit= U _crit L _T⁻¹), where U _crit is the critical swimming speed, was constant throughout the L _T range studied. The significant effect of temperature on the relative critical swimming speed was described binomially: RU _crit=−0.0323T²+ 1.578 T −10.588 (r²=1). The estimated maximum RU _crit (8.69 L _T s⁻¹) was achieved at 24.4° C, and the 90% performance level was estimated between 19.3 and 29.6° C.     

Effect of modification of storage atmosphere on phospholipids and ultrastructure of cauliflower mitochondria

Differences in mitochondrial membrane composition and ultrastructure were studied after storage of cauliflower ( Brassica oleracea , L., Botrytis group) for 5 days at 25°C in air or under controlled atmospheres: 3% O₂, 21% O₂+ 15% CO₂ or 3% O₂+ 15% CO₂. In air, postharvest senescence involved a 20% decrease in mitochondrial phospholipid content. A large reduction in the relative abundance of phosphati-dylcholine (PC) and in the degree of unsaturation of PC and phosphatidyl ethanolamine (PE) was observed. However, the degree of unsaturation increased in cardiolipin (CL). Storage under 3% O₂ did not prevent phospholipid breakdown. Low O₂ prevented the relative decrease in PC observed during storage in air and the loss of linoleic acid from PC, but not from PE. This relative protection offered by the low O₂ atmosphere was lost under 3% O₂+ 15% CO₂. The high CO₂ atmospheres caused twice as much loss in phospholipids as that observed during storage in air. Extensive loss of mitochondrial protein, a marked decrease in phospholipid to protein ratio, and electron micrograph observations suggest structural alterations in the presence of high CO₂.     

Inhibitory effect of sodium bicarbonate on the motility of sperm of Japanese eel

Sperm motility of Japanese eel Anguilla japonica was depressed from 59.1 to 1.1% when NaHCO₃ concentration increased from 0 to 150 mM. In 25 mM NaHCO₃, when pH of the medium was 6.2, 7.2, 8.2, 9.2 and 10.2, relative sperm motility was 0, 0, 55.8, 93.7 and 136.6%, respectively to that of the control (0 mM NaHCO₃). The remarkable effect in acid or neutral condition indicates that free-CO₂ (liberated CO₂ and H₂CO₃) is a key factor for the motility inhibiting effect of NaHCO₃.