四种温带森林土壤氮矿化与硝化时空格局

利用PVC管原位培养连续取样法测定了东北地区4种具有代表性的森林生态系统(硬阔叶林、蒙古栎林、红松林、落叶松林)土壤氮素矿化、硝化的时间动态及氮矿化的空间分布格局.结果表明:4种森林土壤氮素矿化存在明显的时空变异.蒙古栎和红松林土壤在6月份表现出强烈的氮矿化和硝化作用,而硬阔叶林及落叶松林7月份氮素矿化强烈.4种森林生态系统上层土壤的氮净矿(硝)化率显著高于下层土壤.4种林型土壤的硝化过程在氮矿化过程中占有重要地位,其NO-3-N在无机氮中的比例分别为:79.9%～91.1%(硬阔叶林)、50.7%～80.5%(蒙古栎林)、54.1%～92.0%(红松林)、63.7%～86.5%(落叶松林).生态系统构成决定了土壤氮素的矿化能力.阔叶林和针阔混交林生态系统矿化率大于纯针叶林生态系统.硬阔叶林、红松林、蒙古栎林、落叶松林的平均净矿化率分别为:(0.58±0.01) mg · kg-1 · d-1、(0.47±0.19) mg · kg-1 · d-1、(0.39±0.11) mg · kg-1 · d-1和(0.23±0.06) mg · kg-1 · d-1.4种林型氮素矿化作用与地下5 cm温度呈正相关,并受土壤表层 (0～10 cm)水分显著影响.土壤微生物量氮与土壤氮矿化呈显著正相关.     

水源涵养林不同植被类型土壤NH_4~+-N和NO_3~--N分布特征

以辽宁东部山地水源涵养林为对象,选择槭树-蒙古栎林、山杨林、白桦-山杨林和落叶松人工林等4种植被类型,测定其土壤NH4+-N、NO3--N、pH值、容重、有机碳和全氮等理化指标,分析了植被类型、土壤层次与土壤无机氮分布特征之间的关系。结果表明:4种植被类型土壤NH4+-N、NO3--N在土壤表层(0~5 cm)含量最高,由表层向下逐渐降低;土壤总无机氮含量大小为落叶松人工林(27.46 mg·kg-1)山杨林(21.76 mg·kg-1)槭树-蒙古栎林(19.09 mg·kg-1)白桦-山杨林(17.88 mg·kg-1);阔叶林中NH4+-N是土壤无机氮的主要存在形式,而落叶松人工林土壤中NO3--N所占比例较高;水源涵养林土壤NH4+-N、NO3--N均与土壤有机质、土壤含水量呈极显著正相关(P0.01)。总体而言,植被类型对土壤无机氮分布有较大影响,研究结果可为辽东山区水源涵养林植被类型的选择和结构调控提供参考。     

植被恢复对亚热带退化红壤区土壤化学性质与微生物群落的影响

利用1991年在江西省泰和县严重退化的丘陵红壤区建立的长期森林恢复实验基地,以自然恢复的荒草地为对照,分析了湿地松纯林、枫香纯林、湿地松-枫香混交林3种植被类型造林19年后土壤养分和微生物群落数量的变化.结果表明:枫香纯林和湿地松-枫香混交林的土壤有机碳含量(15.16±3.53和16.42±0.49 g·kg-1)显著高于荒草地(9.30±1.13g·kg-1);土壤全磷含量表现为荒草地(0.30±0.02 g·kg-1)＞湿地松-枫香混交林(0.22±0.04g·kg-1)＞枫香纯林(0.14±0.01 g·kg-1);土壤有效磷含量为枫香纯林(1.66±0.02mg·kg-1)、湿地松-枫香混交林(2.47 ±0.27 mg·kg-1)和湿地松纯林(1.15±0.71 mg·kg-1)显著高于荒草地(0.01±0.00 mg·kg-1);土壤的微生物总数、细菌数量及百分比、土壤无机解磷菌和有机解磷菌数量均为枫香纯林、湿地松-枫香混交林显著高于湿地松纯林和荒草地;真菌数量及百分比、放线菌百分比为枫香纯林、湿地松-枫香混交林显著低于荒草地;土壤有机碳含量与细菌百分比呈极显著正相关,与真菌和放线菌百分比呈显著负相关;土壤有效磷与有机解磷菌数量呈显著正相关,与无机解磷菌数量不相关.枫香纯林和湿地松-枫香混交林可以作为亚热带退化红壤区植被恢复的推荐模式.     

大兴安岭北部天然针叶林土壤氮矿化特征

采用顶盖埋管法对大兴安岭地区天然针叶林(樟子松林、樟子松-兴安落叶松混交林和兴安落叶松林)土壤铵态氮(NH~+_4-N)、硝态氮(NO~-_3-N)、净氮矿化速率进行研究,并探索土壤理化性质与氮矿化之间的相关性,为大兴安岭地区森林生态系统土壤养分管理及森林经营提供帮助。结果表明:观测期内(5—10月)3种林型土壤无机氮变化范围为31.51—70.42 mg/kg,以NH~+_4-N形式存在为主,占比达90%以上,且与纯林相比混交林土壤无机氮含量较高。3种林型土壤净氮矿化、净氨化、净硝化速率月变化趋势呈V型,7、8月表现为负值,其他月份为正值。净氮矿化速率变化范围樟子松林为-0.54—1.28 mg kg~(-1) d~(-1)、樟子松-兴安落叶松混交林为-0.13—0.55 mg kg~(-1) d~(-1)、兴安落叶松林为-0.80—1.05 mg kg~(-1) d~(-1)。土壤净氨化过程在土壤氮矿化中占主要地位,占比达60%以上。3种林型土壤净氮矿化、净氨化及净硝化速率垂直差异显著,0—10 cm土层矿化作用明显高于10—20 cm土层(P0.05)。土壤氮矿化速率与土壤含水量、土壤有机碳含量、土壤C/N、枯落物全氮含量和枯落物C/N均存在显著相关性。不同类型的森林土壤及枯落物的质量也存在差异,进而影响土壤氮矿化特征。     

小流域内植被类型对土壤NO3-/NH4+空间变化的影响

流域内植被类型、地形地貌特征对土壤氮循环过程有重要的作用,是影响下游水体无机氮素来源以及富营养化的关键因子。通过比较小流域内4种植被类型(落叶松人工林、油松人工林、天然阔叶次生林和农田(玉米))对土壤NO3--N和NH4+-N含量空间变化的影响,揭示流域内不同立地条件下水源涵养林与土壤无机氮变化特征之间的关系。结果表明:4种植被类型土壤NO3--N和NH4+-N含量差异显著(P<0.05);由坡上到坡下土壤NO3--N和NH4+-N含量显著降低;在土壤表层NO3--N和NH4+-N含量最高,随着土层深度增加无机氮含量减少;与水源涵养林天然植被和人工林植被相比,农田土壤NO3--N含量最高(11.86mg·kg-1),有较高的氮流失风险。     

赣中亚热带森林转换对土壤氮素矿化及有效性的影响

采用原位培养法和时空替代法,对江西中部亚热带常绿阔叶林、天然马尾松林、人工杉木林、人工马褂木林的土壤氮素矿化速率及其有效性进行了比较研究,以探讨森林转换对土壤氮素矿化作用的影响。结果表明：转换前后各森林土壤无机氮库（NH4 -N、NO3--N）及氮素矿化速率(氨化速率、硝化速率)均呈现明显的季节动态,NH4 -N库冬春较大,NO3--N库夏秋较大,氨化速率与硝化速率均以夏秋强烈。森林转换改变了土壤氮素矿化格局,常绿阔叶林转变成马尾松林、杉木林、马褂木林后,土壤年均氨化速率分别降低了110.67%、100.76%、96.20%,而硝化速率提高了54.92%、24.19%、 24.46%;马尾松林年均总净矿化速率与常绿阔叶林相近,杉木林、马褂木林分别降低了24.68%、26.01%;另外,除常绿阔叶林外,马尾松林、杉木林、马褂木林的土壤氮素矿化量都小于植被吸收量。这些研究结果说明亚热带地区常绿阔叶林转换成其它次生林会增加氮素流失的危险性,氮素缺乏会成为这些森林生长的限制因子。     

氮磷添加对亚热带常绿阔叶林土壤氮素矿化的影响

设计了2种处理(即氮添加,100 kg N·hm-2·a-1;氮磷添加,100 kgN·hm-2·a-1+50kgP·hm-2·a-1),研究了氮磷添加对亚热带北部常绿阔叶林土壤无机氮和氮素矿化的影响.结果表明,不同处理0 ～ 10 cm和10 ～ 20 cm土层无机氮(铵态氮+硝态氮)含量年平均值分别为:对照7.27和6.80 mg·kg-1、氮添加13.94和8.92 mg·kg-1、氮磷添加11.20和7.13 mg·kg-1,其中铵态氮分别占90.66％和91.15％、65.78％和72.85％、84.64％和85.08％.不同处理0～10 cm和10 ～20 cm土层的净氨化、净硝化和净氮矿化速率具有相似的季节性变化规律,即夏季氮素净转化速率最高,冬季氮素净转化速率最低,春季和秋季氮素净转化速率有一定差异,但不显著.研究表明,养分添加使土壤年平均净氮矿化速率下降,氮添加使土壤硝化速率下降,氨化速率上升;而氮磷添加使硝化速率上升,氨化速率下降.养分添加对森林生态系统的氮动态影响效应尚需长期定位观测.     

杭州西湖北里湖沉积物氮磷内源静态释放的季节变化及通量估算

通过采集北里湖不同季节的柱状芯样,在实验室静态模拟沉积物氨氮(NH+4-N)和可溶解性磷酸盐(PO3-4-P)的释放,同时研究了沉积物间隙水中NH+4-N及PO3-4-P的垂直分布特征.结果表明,沉积物间隙水NH+4-N随深度的增加有上升的趋势,PO3-4-P随深度的增加呈先升后降的趋势.氮、磷营养盐在沉积物—水界面均存在浓度梯度,表明存在自间隙水向上覆水扩散的趋势.沉积物NH+4-N在春季、夏季、秋季、冬季的释放速率分别为0.074 mg·m-2· d-1、0.340mg· m-2· d-1、0.087 mg· m-2· d-1、0.0004 mg·m-2·d-1,pO3-4-P的释放速率则分别为0.340 mg·m-2·d-1、0.518 mg·m-2·d-1、0.094 mg·m-2·d-1、-0.037 mg· m-2·d-1.不同采样点表现出明显的季节和空间差异性,释放速率表现为夏季＞春季、秋季＞冬季.根据静态模拟出的不同季节下内源氮、磷释放速率计算,全湖内源氮、磷营养盐的贡献分别为0.0037、0.0057t/a.该研究可为北里湖富营养化及内源污染的治理提供基础数据.     

土壤因子对次生森林群落演替的影响

采用聚类分析、主分量分析和回归分析对紫金山次生森林群落的系列群落,演替途径和学业速率进行了研究,紫金山次生森林群落目前的演替趋势为马尾松群落－马尾松、落叶阔叶树嫩落－落叶阔叶树、马尾权群落－落叶阔叶树群落,但在不同的土壤条件下,阔叶树的侵入、生长状况不同,群落具体的发展途径和速度有差异。制约森林演蝗主要土壤因子为土壤 不分和土壤厚度,它们通过对马尾松、枫香、黄檀、栓皮栎等主要树种显著度,对树种竞争     

沙坡头地区藓类结皮土壤净氮矿化作用的季节动态

以腾格里沙漠东南缘天然植被区藓类结皮和无结皮土壤为对象,采用野外原状土柱封顶埋管法对无机氮库和净氮转化速率的季节动态特征进行研究.结果表明:藓类结皮和无结皮土壤有效氮含量和净氮转化速率存在明显的季节变化特征,不同月份间差异显著.在非生长季,3和10月土壤有效氮含量和净氮转化速率显著高于其他月,氮矿化过程以固持态为主,两样地间土壤净氮转化速率无显著差异;在生长季,土壤有效氮含量和净氮转化速率显著增加,6—8月时达到峰值,分别为17.18 mg·kg-1和0.11 mg·kg-1·d-1.两样地土壤净硝化速率和净氮矿化速率在各月间差异显著,均表现为藓类结皮土壤>无结皮土壤.土壤铵态氮和硝态氮含量4和5月时表现为藓类结皮土壤(2.66和3.16 mg·kg-1)>无结皮土壤(1.02和2.37mg·kg-1);6—9月则表现为无结皮土壤(7.01和7.40 mg·kg-1)>藓类结皮土壤(6.39和6.36mg·kg-1).藓类结皮的繁衍与拓殖能够调节土壤有效氮含量、促进土壤氮矿化过程,是影响土壤氮素循环的重要生物因素.     

Role for dopamine in malonate-induced damage in vivo in striatum and in vitro in mesencephalic cultures

Defects in mitochondrial energy metabolism have been implicated in the pathology of several neurodegenerative disorders. In addition, the reactive metabolites generated from the metabolism and oxidation of the neurotransmitter dopamine (DA) are thought to contribute to the damage to neurons of the basal ganglia. We have previously demonstrated that infusions of the metabolic inhibitor malonate into the striata of mice or rats produce degeneration of DA nerve terminals. In the present studies, we demonstrate that an intrastriatal infusion of malonate induces a substantial increase in DA efflux in awake, behaving mice as measured by in vivo microdialysis. Furthermore, pretreatment of mice with tetrabenazine (TBZ) or the TBZ analogue Ro 4-1284 (Ro-4), compounds that reversibly inhibit the vesicular storage of DA, attenuates the malonate-induced DA efflux as well as the damage to DA nerve terminals. Consistent with these findings, the damage to both DA and GABA neurons in mesencephalic cultures by malonate exposure was attenuated by pretreatment with TBZ or Ro-4. Treatment with these compounds did not affect the formation of free radicals or the inhibition of oxidative phosphorylation resulting from malonate exposure alone. Our data suggest that DA plays an important role in the neurotoxicity produced by malonate. These findings provide direct evidence that inhibition of succinate dehydrogenase causes an increase in extracellular DA levels and indicate that bioenergetic defects may contribute to the pathogenesis of chronic neurodegenerative diseases through a mechanism involving DA.     

我国葫芦科植物离体培养研究进展

葫芦科植物包括多种瓜类蔬菜,对其进行离体培养研究具有重要的理论和实践意义。综述了国内在葫芦科植物器官培养、体细胞胚胎发生、花药培养、原生质体培养和体细胞杂交及离体遗传转化等方面取得的研究进展,并对葫芦科植物离体培养、遗传转化与育种的前景作了展望。     

2018年中国植物科学若干领域重要研究进展

2018年中国植物科学继续呈现快速发展的态势, 我国科学家在国际植物科学主流学术刊物发表论文数量大幅增加, 取得了多项具有重要影响的成果。调控植物生长-代谢平衡实现可持续农业发展入选2018年度中国科学十大进展; 中国被子植物区系进化历史研究入选2018年度中国生命科学十大进展。以水稻为代表的农作物和果蔬等经济作物研究在国际上已呈现出明显的优势, 若干领域已从“追赶”状态跨越到“领跑”地位。该文对2018年中国科学家在植物科学若干领域取得的重要研究成果进行了概括性评述, 旨在全面追踪和报道当前中国植物科学领域的发展前沿和热点, 展示中国科学家所取得的杰出成就。     

2017年中国植物科学若干领域重要研究进展

2017年中国植物科学继续保持高速发展态势, 重大成果频出, 具体表现在中国植物学家在国际顶级学术期刊发表的文章数量平稳上升。中国植物科学领域的研究工作者成果精彩纷呈, 如新型广谱抗病机制的发现、水稻广谱抗病遗传基础及机制和疫霉菌诱发病害成灾机制研究等。2017年中国生命科学领域十大进展评选中, 有两项植物科学领域的研究成果入选。水稻生物学、进化与基因组学和激素生物学等领域学科发展突出。另外, 值得一提的是, 长期从事高等植物与代谢途径调控分子网络研究和水稻品种设计育种的李家洋院士的研究成果“水稻高产优质性状形成的分子机理及品种设计”荣获2017年国家自然科学一等奖。这一具有重大国际影响的开创性贡献标志着中国植物科学在该领域的国际科学前沿居于引领和卓越地位。该文对2017年中国本土科学家在植物科学若干领域取得的重要研究成果进行了系统梳理, 旨在全面追踪和报道当前中国植物科学领域发展的最新前沿动态, 与广大读者共同分享我国科学家所取得的辉煌成就。     

SSTR5 ablation in islet results in alterations in glucose homeostasis in mice

Somatostatin (SST) peptide is a potent inhibitor of insulin secretion and its effect is mediated via somatostatin receptor 5 (SSTR5) in the endocrine pancreas. To investigate the consequences of gene ablation of SSTR5 in the mouse pancreas, we have generated a mouse model in which the SSTR5 gene was specifically knocked down in the pancreatic beta cells (betaSSTR5Kd) using the Cre-lox system. Immunohistochemistry analysis showed that SSTR5 gene expression was absent in beta cells at three months of age. At the time of gene ablation, betaSSTR5Kd mice demonstrated glucose intolerance with lack of insulin response and significantly reduced serum insulin levels. Insulin tolerance test demonstrated a significant increase of insulin clearance in vivo at the same age. In vitro studies demonstrated an absence of response to SST-28 stimulation in the betaSSTR5Kd mouse islet, which was associated with a significantly reduced SST expression level in betaSSTR5Kd mice pancreata. In addition, betaSSTR5Kd mice had significantly reduced serum glucose levels and increased serum insulin levels at 12 months of age. Glucose tolerance test at an older age also indicated a persistently higher insulin level in betaSSTR5Kd mice. Further studies of betaSSTR5Kd mice had revealed elevated serum C-peptide levels at both 3 and 12 months of age, suggesting that these mice are capable of producing and releasing insulin to the periphery. These results support the hypothesis that SSTR5 plays a pivotal role in the regulation of insulin secretion in the mouse pancreas.     

我国葫芦科植物离体培养研究进展

葫芦科植物包括多种瓜类蔬菜,对其进行离体培养研究具有重要的理论和实践意义.综述了国内在葫芦科植物器官培养、体细胞胚胎发生、花药培养、原生质体培养和体细胞杂交及离体遗传转化等方面取得的研究进展,并对葫芦科植物离体培养、遗传转化与育种的前景作了展望.     

2018年中国植物科学若干领域重要研究进展

2018年中国植物科学继续呈现快速发展的态势, 我国科学家在国际植物科学主流学术刊物发表论文数量大幅增加, 取得了多项具有重要影响的成果。调控植物生长-代谢平衡实现可持续农业发展入选2018年度中国科学十大进展; 中国被子植物区系进化历史研究入选2018年度中国生命科学十大进展。以水稻为代表的农作物和果蔬等经济作物研究在国际上已呈现出明显的优势, 若干领域已从“追赶”状态跨越到“领跑”地位。该文对2018年中国科学家在植物科学若干领域取得的重要研究成果进行了概括性评述, 旨在全面追踪和报道当前中国植物科学领域的发展前沿和热点, 展示中国科学家所取得的杰出成就。     

Changes in aquatic vegetation in Rhine floodplain streams in Alsace in relation to disturbance

Abstract. Changes are described in aquatic vegetation in oligotrophic, groundwater-fed Rhine floodplain streams in Alsace (eastern France), resulting from disturbance. Disturbance factors include changes in nutrients, either permanent ones - effluent from a waste water treatment plant or trout hatcheries - or periodic ones: flooding. Regular inputs of high levels of phosphate and ammonia modified the macrophyte vegetation in these streams. The floristic composition, which was characteristic of oligotrophic waters upstream of the eutrophicated sector, changed to that of a eutrophic situation as originally found downstream. Periodic disturbance by floods which normally occur once a year, irregularly eutrophicates the small streams, causing the development of a mixture of eutrophic and oligotrophic species. Six macrophyte communities are distinguished, indicating different trophic levels. The aquatic vegetation is adapted to the variations of phosphate and ammonia levels. Hence, aquatic macrophytes can be used as bio-indicators of fluctuations in water nutrient levels in relation to the type of disturbance.     

Apoptosis in experimental myocardial infarction in situ and in the perfused heart in vitro

We report the appearance of apoptotic cells in experimental myocardial infarction (rabbit heart) in in situ and in vitro preparations. Apoptosis was recognized by intravital staining with Hoechst 33342 (Ho342), by nick-end labeling (TUNEL) and by DNA laddering. A steady rise in the relative number of apoptotic cardiomyocytes (apoptotic index) was noted in in situ preparations. Apoptosis was first noted 6 h after the onset of ischemia with its highest value occurring after 72 h. Apoptotic nuclei were absent in remote areas of the left and right ventricles. Apoptotic nuclei within the infarcted area showed diminished intensity of Ho342 fluorescence. Three days after ischemia, a border zone adjacent to the infarcted area consisting of apoptotic macrophages was recognized. A novel finding was the appearance of apoptotic cardiomyocytes in the isolated perfused ischemic heart. Occurring as early as 50 min after the onset of ischemia, a high apoptotic index was present adjacent to the ligature placed around the coronary artery. This observation provides the opportunity to selectively examine factors leading to apoptosis in the ischemic heart under controlled experimental conditions.     

Peroxisomes in Rice Coleoptiles Grown in Air and in Anoxia

Rice coleoptiles grow under anoxia. When the ultrastructure of anoxic coleoptile cells was examined, it was seen that most organelles maintain their integrity, with the exception of peroxisomes (unspecialized type). The lack of O₂ greatly reduced the number of these organelles and altered the ultrastructure of the remaining ones. To examine the effect of O₂ on peroxisome development in more detail, coleoptiles grown in air were transferred to N₂ and anoxic coleoptiles were transferred to oxygen. Marker enzyme activity was measured in entire coleoptiles as well as in the isolated organelles. As expected, anoxia greatly depressed enzyme activity when imposed from the beginning of the germination process, while it had a lesser effect when imposed for only two days on aerobic seedlings. When coleoptiles were grown constantly under N₂, the density of the organelles was 1.216 g/cm³, while the corresponding aerobic organelles showed a buoyant density of 1.241 g/cm³. When transferred to air the anoxic peroxisomes reached the intermediate density of 1.227 g/cm³. The results confirm the particular sensitivity of rice peroxisomes to O₂ availability.