Phototrophic and heterotrophic nano- and microorganisms of sea ice and sub-ice water in Guba Chupa (Chupa Inlet), White Sea, in April 2002

Autotrophic and heterotrophic flagellates, microalgae and ciliates sampled at four stations in the White Sea in April 2002 were studied using epifluorescence microscopy. The concentrations of phototrophic 1.5 μm algae in the middle and lower part of the ice core were very high: up to 6.1 ± 10⁸ cells I⁻¹ and 194 μg C I⁻¹. Heterotrophic algae made up the largest proportion of the nanoplankton (2-20 μm) and microplankton (20-200 μm) at depths 10-25 m below the ice. The proportion of ciliates ranged from about 0.01% to 18% at different stations and depths. Most of the ciliate biomass in the ice was made up of typical littoral zone species, whereas the water under the ice was dominated by phototrophic Myrionecta rubra . Ice algae, mainly flagellates in the upper ice layer and diatoms in the bottom ice layer, supported the proliferation of heterotrophs, algae and ciliates in early spring. Small heterotrophs and diatoms from the ice may provide food for early growth and development of pelagic copepods. Mass development of the ice algae in early spring appears typical for the seasonal ice of the White Sea. Ice algae differ in species composition from the spring pelagic community and develop independently in time and space from the spring phytoplankton bloom.     

The relationship between cyanobacteria and environmental factors in the Bering Sea

During the first Chinese Scientific Expedition to the Arctic in July - September 1999, cyanobacteria in the Bering Sea were measured by epifluorescence microscopy. Cyanobacterial abundance varied from 0 to 7. 93 × 103 cell/ml and decreased along a northerly directed latitudinal gradient in horizontal distribution. Cyanobacteria did not occur at station Bl - 12 (north of 60 °N). Vertically, high cya-nobacterial abundance appeared in the upper 25 - 50 m and decreased rapidly below 50 m. There were no cyanobacteria at the 150 m. Seawater temperature and NH4+ -N are suggested to affect the distribution of cyanobacteria.     

楚科奇海和白令海毛颚类的分布

根据 1 997年 7─ 8月我国首次北极科学考察期间 ,分别在楚科奇海和白令海进行海洋综合调查的资料 ,分析了这两区毛颚类种类组成和生态类型的特征、丰度的水平分布、层状分布和昼夜垂直分布。同时还就其数量分布与某些环境因子的相关性进行初步探讨。研究表明 :( 1 )两区共记录毛颚类 7种 ,可分为 3个类群 ,在数量上 ,白令海的个体数明显高于楚科奇海 ;其平面分布的状况主要由优势种所左右 ,并且都呈现出南高北低的分布格局。 ( 2 )在楚科奇海 ,毛颚类的层状分布以 5 0─ 2 0 0m层数量较高 ,5 0 0─ 80 0m层最低。白令海毛颚类的昼夜垂直分布的趋势是 ,白天总个体数最高比值均出现在 2 0 0─ 5 0 0m层 ,而晚上─凌晨则密集于 1 0 0m以浅水域 ,尤以 0─ 5 0m层数量最高 ,表现出白天下降夜晚上升的分布规律。     

Oxygen isotopic composition and its application to the study of tracing oceanographical process in Bering Sea and Chukchi Sea

In this paper, the 18 O distribution of surface water from the central sea areas of the Bering Sea and the Chukchi Sea was studied. The δ 18 O value of surface water from the Bering Sea is averagely -0.5‰; the δ 18 O contents of the Chukchi Sea are distributionally lower in northeast and higher in southwest; the δ 18 O value at the margin of Canadian Basin is -2.8‰, and averagely -0.8‰ in the southern area of the Chukchi Sea. The δ 18 O vertical distribution in some deep water stations from the Chukchi Sea and the Bering Sea is also studied. In the southern margin of Canadian Basin, the δ 18 O value is -2‰ -3‰ for surface layer and rises to 0 at 100 m depth layer. In the Bering Sea, the δ 18 O is about -0.5‰ for surface layer and increases to 0 at the depth of 300 m. The NO tracer can reflect obviously three water masses vertically distributed in the central Bering Sea: the upper Bering water mass, the middle Bering water mass and the deep Pacific water mass. The distributive ranges of NO and temperature for the various water masses are T<7℃, NO>780 μmol/dm 3 and T≥7℃, NO>650 μmol/dm 3 for upper Bering water mass, T<4℃, 550相似文献   

绿洲-荒漠过渡带典型防护林体系环境效益及其生态功能

 在塔里木河下游绿洲-荒漠过渡带,选取乔灌草结构（胡杨-柽柳-花花柴群落）、乔灌结构（胡杨-柽柳群落）和单一乔木结构（胡杨群落）三种典型防护林为研究对象,采用野外监测和室内分析相结合的方法,探讨了不同类型防护林对空气温湿度、土壤理化特性及防护效应等的作用,并分析了产生差异的原因及生态功能。结果表明：(1）干旱区绿洲-荒漠过渡带不同结构组成的防护林均可提高群落内温湿度的稳定性,改善土壤理化性质,其中乔灌草结构防护林较其它群落更有利于增加0~50 cm土壤有机质、[WTBX]全N、全P[WTBZ]和20~100 cm土壤全[WTBX]K[WTBZ]的积累;能更有效地增加0~30 cm土壤水分、抑制0~100 cm土壤盐分、稳定0~50 cm土壤温度;(2）单一胡杨林群落的有效防护高度为2~3 m,横向有效防护距离为40 m;胡杨-柽柳群落的有效防护高度为2～4 m,横向有效防护距离为60 m;胡杨-柽柳-花花柴群落的有效防护高度分别为小于1 m和2~4 m,高度超过1 m以上的横向有效防护距离为60 m,在1 m以下其横向有效防护距离可达100 m;(3)群落结构、植物密度和覆盖度是影响防护林环境特征和生态功能的主要原因。     

222Rn and 226Ra: indicators of sea-ice effects on air-sea gas exchange

²²² Rn and ²²⁶Ra distributions beneath the sea ice of the Barents Sea revealed that ice cover has varied effects on air-sea gas exchange. Twice, once in late summer and once in late winter, seawater samples from the top meter below drill holes had ²²²Rn activities that were not lower than their ^226,Ra activities, indicating the existence of secular equilibrium and a negligible net exchange of ²²²Rn and other gases with the atmosphere. However, seawater in the upper 20-85 m usually exhibited at least some ²²²Rn depletion; ²²²Rn-to-²²⁶Ra activity ratios tended to have 'ice-free' values (0.3-0.9) in the summer and values between 0.9 and 1.0 in the winter. Integrated ²²²Rn depletions and piston velocities in both seasons typically fell in the lower 25% of the ranges for ice-free seawater, suggesting that a moderate but far from total reduction in gas exchange is normally caused by ice cover and/or meltwater. The results demonstrate that sea-ice interference with the oceanic uptake of atmospheric gases such as CO, is not well understood and needs further investigation.     

楚科奇海浮冰区夏季短期颗粒有机物通量及其主要组分

中国首次北极科学考察期间 ,于 8月 2 0- 2 3日在楚科奇海浮冰区联合冰站实施了为期 4天的短期颗粒有机物通量研究。结果显示真光层的颗粒有机碳通量为 1 .582mgCm- 2 day- 1 ,2 2 0m深层为 1 .339mgCm- 2 day- 1 ,而相应的沉降颗粒物总通量分别高达 8.788和 1 0 .30 3mgm- 2 day- 1 。显示北极浮冰区的夏季融冰季节后期 ,颗粒有机碳通量的水平较低。与颗粒有机碳通量水平相似 ,生源硅和活性磷的通量水平也较低。对硅藻通量组份的分析表明 ,真光层沉降硅藻的优势种为Nitzschiacf.seriata、Naviculaglacialis和Melosirasp .,而 2 2 0m层则Lepto cylindrussp .占绝对优势 ,其丰度数量百分比均超过 70 %。硅藻碳通量的绝对值较低 ,为0 .1 0 7- 0 .1 1 3mgCm- 2 day- 1 。然而 ,真光层大型桡足类的碳估算值高达 1 0 8.67mgCm- 2day- 1 ,占浮游动物总碳量的 95 .3 % ,大型浮游动物的表观碳通量高于浮游植物碳通量 2- 3个数量级 ,显示楚科奇海夏季融冰期高浮游动物碳量、低浮游植物碳量的特点。但浮游动物表观碳量高的主要原因与浮游动物的昼夜垂直运动有关 ,却并非是实际向深层海洋传输的碳量     

夏季南海西北部海域由外海至近岸表层海水浮游植物群落结构的空间变化

依托2013年夏季科技基础专项南海珊瑚礁海域调查航次,主要研究了南海西北部海域由外海到近岸表层海水内浮游植物叶绿素（Chl a）质量浓度和群落结构,以及微微型浮游植物（聚球藻、微微型真核生物）丰度。研究结果显示：1）调查期间,从外海到近岸总Chl a质量浓度由0.024逐渐增至19.1 μg/L;同时,小型浮游植物（Micro-,＞20 μm）所占比例由6.0%增至81%,微型浮游植物（Nano-,3~20 μm）所占比例（9%~24%）的空间变化不明显,而微微型浮游植物（Pico-,＜3 μm）所占比例由85%降至5.1%。2）从外海到近岸聚球藻和微微型真核生物丰度分别由（2.58±0.21）×106和（1.62±0.91）×105 cells/L升高至（2.29±0.10）×108和（1.83±0.46）×107 cells/L,而且二者呈显著正相关关系（R2＝0.68,p＜0.05）。3）调查海域总浮游植物生物量空间变化主要受微微型浮游植物丰度空间变化的调控。     

Vegetation in an altitudinal gradient along the R?́o Loa in the Atacama Desert of northern Chile

Six sites between 0 m and 4000 m were sampled for plant and soil chemical characteristics along the Río Loa, Atacama Desert, Chile. Sites located between 0 m and 1500 m showed lower species richness, higher plant cover and higher herbaceous productivity than the upper part of the altitudinal gradient. The number of species varied non-linerly with precipitation along the altitudinal gradient. Plant cover and herbaceous productivity in the lowlands is characterized by thePluchea absinthioides Distichlis spicataassociation of anthropic origin. We propose that vegetation structure along the altitudinal gradient has been affected by past and present human activities, and climatic and edaphic factors.     

夏季楚科奇海浮游动物的生态特征

根据中国首次北极科学考察的资料 ,分析了楚科奇海浮游动物的物种和生态类群以及群落结构的多样性 ,报道了浮游动物不同群落的地理位置 ,生态属性及其主要种的差异 ,阐述了浮游动物数量的平面和垂直分布特征以及各主要类别的百分组成 ,探讨了本区浮游动物分布特征与环境因子的相关性 ,同时还就本区浮游动物的物种多样性和生物量等指标与相关海区进行比较。结果表明 ,在已记录的 84种浮游动物中 ,4种生态类群同时共存 ,它们以差异悬殊的数量比分别在测区 70°N以南和以北浅水区以及东北部深水区形成 3个生态属性各异的群落结构 ,其分布状况可与测区内不同海流、水团的动态相互佐证。在平面分布上 ,总生物量呈深水区低、浅水区高 ,尤以浅水区南端最高的分布格局 ,在垂直方向上 ,傍晚深水区总生物量高值层出现于 2 0 0 m以浅 ,尤以 5 0 - 0 m层最高 ,2 0 0 m以深逐层下降 ,而物种多样性则由浅到深逐层增加 ,但 80 0 -5 0 0 m层略有减少。与相邻的中、低纬度的海域相比 ,本区浮游动物总生物量均值明显较高 ,但物种多样性却明显贫乏 ,此外 ,物种多样性的垂直分布与热带海域的分布特征完全相反     

Geology and palynology of the Triassic succession of Bjørnøya

The Triassic succession of Bjørnøya (200 m) comprises the Lower Triassic Urd Formation (65 m) of the Sassendalen Group, and the Middle and Upper Triassic Skuld Formation (135 m) of the Kapp Toscana Group. These units are separated by a condensed '.'Middle Triassic sequence represented by a phosphatic remainé conglomerate (0.2m).
The Urd Formation consists of grey to dark grey shales with yellow weathering dolomitic beds and nodules. Palynology indicates the oldest beds to be Diencrian; ammonoid faunas in the middle and upper part of the formation arc of Smithian age. The organic content (c. 1 %) includes kerogen of land and marine origin, reflecting a shallow marine depositional environment.
The Skuld Formation is dominated by grey shales with red weathering siderite nodules. There are minor coarsening upwards sequences; the highest bed exposed is a 20 m thick, very fine-grained sandstone. Palynomorphs indicate a late Ladinian age for the lower part of the formation, and macrofossils and palynomorphs indicate Ladinian to Carnian ages for the upper part. Sedimentary structures, a sparse marine fauna and microplankton indicate deposition in a shallow marine environment. The organic residues contain dominantly terrestrially derived kerogen.     

黄土丘陵区坡面尺度上不同植被格局下植物群落和土壤性质研究

通过对黄土丘陵沟壑区陕西延安羊圈沟小流域坡面上退耕还林还草后形成的林地(单一种植刺槐人工林)、草地(单一的撂荒草地)、草地-林地-草地(上坡位和下坡位撂荒草地,中坡位种植刺槐人工林)及林地-草地-林地(上坡位和下坡位种植刺槐人工林,中坡位为撂荒草地)四种不同的植被格局下植物物种多样性及土壤理化性质变化的研究,旨在揭示植被恢复过程中,坡面上植被不同的空间配置模式对植物物种的组成及土壤环境变化的影响.研究发现,4种植被格局下植物物种的多样性以单一的撂荒草地坡面最高,人工林的种植一定程度上影响了林下植物物种多样性的恢复,但整个灌木和草本的群落结构4种植被格局之间均未达到极不相似水平.土壤有机碳及总氮含量均以坡面上草地-林地-草地的空间配置格局最高且有机碳存在显著差异,而撂荒草地则在土壤水分的保持及改善土壤pH值上优于其他3种植被格局.     

珠江三角洲晚第四纪地层、海平面变化 与构造运动的关系

在回顾南海北部海岸和陆架地层证据的基础上,梳理了珠江三角洲晚第四纪演变历史。结果显示：1）本区晚第四纪地层拥有2套海相沉积,上（新）海相层是当前间冰期（或10.5 ka B.P.以来）高海平面期间形成的沉积物,而下（老）海相层最可能是末次间冰期（126―120 ka B.P.）高海平面阶段留下的沉积物;2）老海相层顶面埋深在三角洲盆地内至少比现今海平面低10~15 m,在珠江口一带则低于20 m,这说明珠江三角洲盆地存在构造沉降,因为2次间冰期的海平面高度是相近的;3）在新生代欧亚板块大陆向东南伸展的构造格局下,南海北部陆架和海岸带经历长期连续的沉降,而长期平均沉降率在0.12 mm/a左右,明显低于GPS测出的现代沉降率;4）在这种板块运动基础上,晚第四纪断裂活动增强了三角洲盆地的沉降,为2次海侵提供了可容沉积空间。     

白洋淀芦苇台地土壤理化因子及其酶活性特征

2009年4月22日、6月23日、8月31日和10月31日,在白洋淀鸳鸯岛、北田庄和圈头村芦苇(Phragmites australis)台地3个垂直剖面(0～10cm、10～30cm和30～60cm)上采集了土壤样品,分析了不同季节的土壤理化因子和4种土壤酶活性的时空变化及其相互关系。结果表明,白洋淀芦苇台地土壤含水量随着土壤深度的增加而增加;土壤有机质含量随土壤深度的增加而减少,0～10cm表层土的有机质含量都在70g/kg以上;土壤的全氮和全磷含量随土壤深度的增加而减少,各采样地0～10cm表层土壤的全氮含量为2.04～3.41g/kg,全磷含量为0.71～1.14g/kg。3块采样地0～60cm土壤的蔗糖酶活性、碱性磷酸酶活性、脱氢酶活性和荧光素二乙酸酯(FDA)水解酶活性分别为0.53～28.56mg/g、0.44～2.36mg/g、1.62～12.18mg/g和8.07～172.65μg/g,表层土壤具有较大酶活性。芦苇台地4种土壤酶活性与土壤含水量呈显著负相关(p<0.01),与土壤有机质含量、全氮含量、全磷含量呈显著正相关(p<0.01)。     

夏季白令海浮游动物的分布

本文报道了 1 999年夏季白令海中部浮游动物的分布特征。初步鉴定共有 90种浮游动物 ,它们分别隶属于北极、亚北极、大洋冷水和世界广温等四种生态类群 ,但以亚北极类群为主导 ,尤以太平洋亚北极外海广深种布氏真哲水蚤、羽哲水蚤、晶额哲水蚤和太平洋腹水蚤等占优势 ,呈现太平洋亚北极外海浮游动物的群落特征。在水平方向上 ,浮游动物总生物量 (均值为42 5 .4mg/m3)介于 70— 1 1 30mg/m3之间 ,呈现南侧高于北侧 ,周边高于中央的平面分布格局。在垂直方向上 ,5 0 0m以浅水域浮游动物总生物量日均值以 5 0— 0m层最高 ( 4 3% ) ,2 0 0— 1 0 0m层最低 ( 8.4% )。此外 ,在 1 0 0m以浅水层中浮游动物总生物量的垂直分布具显著的昼夜变化 ,高值层呈现白天下降、夜晚上升的分布节律 ,不同种群浮游动物分布的水层不尽相同 ,甚至同一种群不同发育阶段的个体分布的水层亦不同。     

白令海蓝细菌分布

1999年 7月～ 9月中国首次北极考察期间 ,研究了白令海 2个断面 8个站位海洋蓝细菌数量分布。蓝细菌数量变化在 0～ 7.93× 1 0 3 cell/ml之间 ,水平分布自南向北随纬度的增高而降低 ,在 6 0°N以北的 B1 - 1 2站没有检测到蓝细菌。垂直分布主要分布于 5 0 m以浅 ,最大值出现在B1 - 1站的 2 5 m水深。蓝细菌数量在 5 0 m以下迅速减少 ,到 1 5 0 m水深几乎没有。海水温度和NH+ 4 - N可能是影响蓝细菌数量分布的重要因素     

Correlations between pelagic distribution of Common and Brünnich's Guillemots and their prey in the Barents Sea

Correlations between guillemots (including Common Guillemots Uria aalge and Brünnich's Guillemots U. lomvia) and their prey (divided into five prey categories, capelin Mallotus villosus , herring Clupea harengus , polar cod Boreogadus saida , plankton, and a mixture of other prey species) at two depths (10-100 m and 100-200m) were estimated along an extended transect of 3,060 nautical miles (5,667 km) in the Barents Sea in April/May 1986. Spatial concordance was highest during daylight hours when the largest number of birds were seen on water (presumably feeding birds). Capelin was the single prey category which was most often associated with birds but no single prey category could alone explain the distribution of birds. Although only a small fraction of guillemots could be identified to species, there was some evidence that capelin were of greater importance to Common than to Brünnich's Guillemots. Overall correlation between birds and total prey density was statistically significant at the smallest scale of 5 nautical miles (n.m.). The removal of herring from the calculations increased the strength of the correlation. The depth at which prey was located had little effect on the distribution of birds. The correlation between birds and prey was scale dependent, and reached a maximum at 90 n.m., although there seemed to be some upper threshold in the coefficient at c. 40 n.m. Numerical concordance (including only 5 n.m. periods where both prey and birds were present) was significant at the 5 n.m. scale but was higher for high density than for low density prey patches. The results are discussed in relation to the few similar studies in other oceans and in relation to the severe reduction of important prey species in the Barents Sea.     

楚科奇海和白令海的海洋低温微生物调查

在 1 999年北极夏季期间对楚科奇海和白令海的海洋低温微生物进行了调查。在楚科奇海 ,海洋细菌和海洋真菌的检出率分别为 1 0 0 %和 >94% ,其相应的总量一般分别为 >1 0 3 cells/cm3 和 1 0 1— 1 0 3 cells/cm3 ;在大多数站位 ,海洋细菌的总量通常都高于海洋真菌的总量 ;从表层至 1 0 m或 3 0 m深层的海水区域 ,分布有丰富的海洋微生物。调查结果还显示 ,不同站位间的海洋微生物总量存在明显差异 ,海冰的融化和海水中的盐度可能是影响这一海区海洋微生物总量的重要因素。在白令海 ,海洋细菌的检出率为 1 0 0 % ,其总量一般在 1 0 2 — 1 0 3 cells/cm3 ;海洋真菌的检出率 >84% ,其总量一般也在 1 0 2 — 1 0 3 cells/cm3 。白令海不同站位间的海洋微生物总量也存在较大的差异。调查结果证实在楚科奇海和白令海的确存在大量的低温海洋微生物 ,在所研究的海洋细菌中 ,分别有 81 %的楚科奇海细菌和 88.9%的白令海细菌能够在低温条件下 (<1 0℃ )良好生长 ,而且有部分菌株能够在低温条件下分解利用淀粉或纤维素等多糖物质以满足自身生长的营养需求。这些海洋低温菌株为进一步开发利用这些海域的海洋微生物资源提供了充足的材料     

中国1980—2019年1 m土层贮水量的时空变化特征分析

土壤剖面水分信息比表层土壤水分信息难以获取,但对全面认识整个土层的水分含量至关重要。融合多源数据是估算区域土壤剖面水分的有效途径。本文采用随机森林回归算法,利用中国实测土壤水分数据建立了不同季节的表层-深层土壤水分关系模型。据此采用ESA CCI SM遥感表层土壤水分产品估算获得了中国1980—2019年0~10、0~20、0~30、0~40、0~50、0~60、0~70、0~80、0~90和0~100 cm 共10个深度层次土壤水分的时空变化特征。ESA CCI SM产品与实测数据整体上匹配较好但普遍高估,本文提出采用饱和含水量和凋萎系数信息对其进行值域控制,有效降低了该产品的高估误差。随机森林回归模型的精度在秋季最高,夏季和春季次之,冬季最低。模型对干带土壤水分的估算最准确,暖温带和冷温带次之,青藏带准确性最低。计算了中国10个深度层次的土壤贮水量,其多年平均值和标准差分别为1.64±0.11、3.50±0.21、5.29±0.30、7.13±0.38、10.04±0.46、12.25±0.54、14.47±0.62、16.75±0.69、19.05±0.76和21.36±0.83 cm。各深度的土壤水分呈明显的分层,即波动层（0~40 cm）、跃变层（40~60 cm）和稳定层（60~100 cm）。中国1m土层贮水量呈自西北向东北和东南方向递增的分布格局,寒旱区该值较低且空间变异明显,暖湿区该值较高且空间分布更均一。热带、干带和青藏带的1 m土层贮水量在夏季最高,暖温带和冷温带该值在夏季最低。近40年来中国1m土层贮水量在空间上“湿区愈湿,干区愈干”,在时间上“湿季愈湿,干季愈干”。热带土壤在2004—2009年显著变湿,干带土壤显著变湿和变干的转折年份分别为1985—1986年和2013—2014年。中国1m土层贮水量序列最常见的周期是5年和11年。     

紫色土不同土体的土壤养分和酶活性特征

对紫色土未培肥和培肥的不同土体,在小麦生育期内土壤养分和酶活性的动态测定结果表明:未培肥土体的全氮、有效磷、蔗糖酶、碱性磷酸酶有明显变化。尤其是砂土在改变为不同质地的土体后,上述土壤养分和酶活性都有所提高。培肥土体的土壤有机质、全氮、有效钾明显增加,土壤酶活性增强。砂土培肥的效果最显著。所以改变土体质地,并加以培肥,有助于提高土壤肥力,防治紫色土退化。