苏北平原晚更新世以来的孢粉组合和古环境变化——以灌云县GZK-06钻孔为例

通过对苏北平原滨海地区GZK-06钻孔39 m以上地层孢粉记录的分析研究,初步恢复了该地区晚更新世以来植被变化历史和气候变化过程。晚更新世早期区域植被为含常绿阔叶树种的落叶阔叶林,气候相对温暖湿润;晚更新世晚期区域植被为落叶阔叶林,气候相对温和偏干;全新世时期区域植被主要为常绿落叶阔叶混交林,近海地区发育盐生草甸,反映了相对暖湿的气候环境。同时,本研究通过提取对海平面变化敏感的孢粉组合信息,并进行分析对比研究,揭示出该地区分别在晚更新世早期和全新世早中期经历海侵。     

白洋淀地区全新世以来植被演替和气候变化初探

 根据对白洋淀白4号孔的孢粉分析、放射性碳年代测定和野外考察研究表明,白洋淀形成于中全新世。晚全新世以来,随着气候的变凉变干,古白洋淀开始收缩和解体,但在人类活动的利用改造下,使逐渐解体的白洋淀得以保留下来。依据气候地层学的观点,并结合放射性碳年代测定,白洋淀地区的全新世地层可以划分为四期：即古全新世(距今11000—9000年),气候温和湿润;早全新世(距今9000—7500年),气候偏凉偏干;中全新世(距今7500—3000年),气候温暖湿润;晚全新世(距今3000年至今),气候温凉偏干。     

甘肃小陇山林区全新世中期以来古植被演替的研究

采用花粉孢子分析和＾１４Ｃ测定年代的方法,来研究小陇山林区植被的历史演根据小陇山林区不同地点３个剖面的孢粉资料和＾１４Ｃ数据,首次推断该区自全新世中期以来,古植被和古气候经历了３个演替阶段;距今７５００－５０００年,为以栎类为主的落叶阔叶林和局部为针阔混交林,气候温度湿润;距今５０００－２５００年,为以栎类为主的针阔混交林,气候温和略干;２５００年至今,早期为栎林和针阔昆交林,晚期是以栎类占优势的     

成都平原4 000aBP以来的孢粉记录与环境变化

成都平原晚全新世以来沉积的泥质层发现丰富的孢粉。根据孢粉成分组合特征和生态类型可划分出5个孢粉组合带,结合剖面上6个14^C测年数据,提出在过去的4000a研究区植被类型及气候环境经历了5个阶段的变化：3800-3600aBP为亚热带常绿阔叶林,气候暖偏湿;3600-3400aBP为含常绿树种的落叶阔叶林,气候温暖湿润;3400-2600aBP为草／湿地,气温下降,环境更潮湿;2600-900aBP为落叶阔叶林,温度又开始逐渐回升,气候温和偏湿;900-300aBP再次变为草／湿地,偏干冷的气候环境。     

根据孢粉资料推论长江三角洲地区1200年以来的环境变迁

根据长江三角洲地区全新世９个具代表性钻孔的孢粉分析结果讨论了本区约自１２０００年以来的环境变迁。孢粉序列表明：本区约在距今１２０００年前就已发育了亚热带性质的落叶常绿阔叶林,约在９０００—５０００ａＢ．Ｐ．常绿阔叶林获得大发展。孢粉序列良好地记录了古季风盛衰的历史,表现在：１２０００—１０８００ａＢ．Ｐ．较温湿,东南季风强度加强;１０８００（或１１０００－１００００（或１０３００）ａＢ．Ｐ．偏闵干,东南季风强度减弱,对应于新仙女木期;约自１００００ａ．Ｐ．起,气候好转,气温明显上升,东南季风强度再次增强,约在９０００—５０００ａＢ．Ｐ．温暖湿润,为东南季风强盛期。此外．还讨论了约在距今１１０００年前的海侵,全新世下限和哥德堡事件的年代问题,并确定哥德堡事件的年限为１１０００—１０００ａＢ。Ｐ。     

黄土高原西部4万多年以来植被与环境变化的孢粉记录

采集甘肃静宁、定西、秦安等地晚更新世晚期以来几个黄土剖面的孢粉样品,分别以晚更新世每个样品分辨率200—300年,全新世20—200年,揭示了黄土高原西部4万多年以来古植被曾经历过草原、森林草原(或疏林草原)、针叶林以及荒漠草原或荒漠几种植被的多次快速变化。在44.2—11kaBP期间,静宁地区植被主要表现为森林和草原成分的相互消长,其中44—29kaBP期间(MIS3)气候以湿润为主,发育针叶林,温度低于现在;23kaBP之后,气候冷干,以稀疏草原为主,在末次盛冰期植被甚至演化为荒漠草原。全新世大部分时间内是以草原或森林草原(或疏林草原)植被为主。在全新世中期,约7.6—5.8kaBP有近1700年时间发育有森林植被,在这个时期当地自然植被覆盖度较高,而草原或疏林草原发育时期植被往往较稀疏,反映气候相对干冷。根据出现的不同类型植物的孢粉浓度及其生态环境特性,研究区早、中全新世,约8.8—5.8kaBP沉积环境较湿润;自3.8kaBP以后气候环境总的变化趋势是逐渐变干,植被开始向草原荒漠化演变。然而,研究区整个全新世气候环境存在多次干湿交替现象,据孢粉记录,其中可能存在11次气候干寒事件。     

末次冰期南海巽他陆架上的植被和气候——17962孔孢粉记录

提供了南海大陆坡上17962孔深海沉积物的孢粉记录.该孔长8 m,底部14C年龄为30 000 a BP,跨越了深海氧同位素3期、末次冰期、冰消期和全新世几个地质历史阶段.孢粉记录显示末次冰期低海面时南海南部出露的陆架上覆盖了低地雨林.同时,在邻近的岛屿上山地雨林扩张,表明气候比现在凉,但是没有变干的迹象.冰消期植被和气候都经历了快速变暖和变凉的波动.全新世时,红树林和低地雨林的扩张以及孢粉沉积率的明显降低均表明气候变暖,海面上升,大陆架被淹没.     

内蒙古大青山调角海了地区全新世气候与环境重建研究

以全封闭湖泊调角海子湖相沉积的高分辨率采样为基本分析材料,采用孢粉分析,沉积地球化学分析,14C测年等多种分析手段,对调角海子地区全新世气候与环境进行了综合研究,结果表明：全新世气候与环境演化可划分为5个阶段,其中后两个阶段又可分为3个亚段;全新世大暖期的时代为9400－3800aBP;全新世大暖期具有二分性;6900－6300aBP为全新世气候最适宜的鼎盛期,当时气温比现在高2－3度,降水量至少高于现代150－200mm,植被为针阔叶混交林。     

太湖平原西北部全新世以来植被与环境变化

太湖平原西北部卜弋桥Zk01孔上部8m地层孢粉资料显示该地区自全新世以来植被与气候主要经历了三个阶段:1)11000—9500cal.aB.P.,地带性植被为壳斗科为主的亚热带常绿落叶针阔混交林。森林成分以栎属(Quercus)、青冈属(Cyclobalanopsis)、栗属(Castanea)、栲属(Castanopsis)/石栎属(Lithocarpus)和松属(Pinus)为主,同时混生有少量的枫香属(Liquidambar)、冬青属(Ilex)、水青冈属(Fagus)、桦属(Betula)、榆属(Ulmus)等乔灌木。本阶段孢粉浓度较高,气候较温暖湿润,为早全新世升温期;2)9500—3900cal.aB.P.,植被演替为中亚热带性质的常绿阔叶林。此阶段特别是8000cal.aB.P.以来,植被以青冈属为主的常绿分子获得大发展为特点。当时森林繁茂,气候暖湿且较为稳定,对应于中全新世大暖期(适宜期);3)3900cal.aB.P.以来,森林植被表现为次生性质的亚热带针阔混交林。青冈属、栎属骤减,松属、禾本科(Poaceae)及水龙骨科(Polypodiaceae)含量明显增升。本阶段孢粉浓度减为最低,据研究区周边的孢粉资料推测此时期气候温凉湿润。本阶段晚期森林植被受到人类的干扰,与人类活动密切相关的农作物如禾本科(35—45μm)、十字花科和菊科等花粉类型含量持续增多,表明研究区自全新世晚期以来出现了明显的人类活动的迹象。Zk01钻孔点位处古河道,磁化率和粒度证据揭示了研究点沉积环境全新世早期为河流相,水动力较强,中期水动力条件显著增强,晚期减弱。最后,结合孢粉资料和沉积环境简述了植被变化与沉积环境之间的关联。     

末次冰期以来湛江湖光岩玛珥湖孢粉记录及古环境变化

通过对湛江湖光岩玛珥湖钻孔孢粉记录的研究认为,末次冰期以来,该区植被类型从早期的南亚热带季风常绿阔叶林依次演替为,中亚热带常绿、落叶阔叶林→南亚热带季风常绿阔叶林→中亚热带常绿—落叶阔叶—针叶混交林(湖边草地)→热带季雨林→半常绿季雨林。气候最寒冷的时期温度比目前至少降低了4—6℃以上。全新世早期相对于旱。     

On the Evolution of the Palynoflora and Climatic Environment During Late Pleistocence in Tengger Desert,China

Palynoflora studies on the Duantouliang section, located at 39º40'N, 103º55'E in Northwestern Tengger Desert, China showed that, based on the spore-pollen assemblages, the major vegetation and climatic environment between 42 000 to 23 000 a BP could be divided into the following different periods: Ⅰ. From 42 000 to 38 000 a BP, the spore-pollen assemblages displayed that the mixed conifer/deciduous broad-leaved forests developed on the mountain and its foothill regions where the bare Gobi-desert are at present; At that time, Populus and Salix forests and grassland surrounded the Paleaolake, the climate condition was much warmer and humid than today; Ⅱ. From 38 000 to 37 000 a BP, the climate was warm and moist, it was the most suitable period for the plant growth, the studied area was dominated by the temperate and warm-temperate mixed broad-leaf deciduous and needleleaf forest, there was meadow spreaded on the river sides and lake beaches; Ⅲ. From 31 000 to 30000 a BP, the needleleaf forests and cold-temperate Salix oritrepha shrubs were flourishing, and the climate at that time was relatively cold;Ⅳ. From 30000 to 28000 a BP, the temperatures began increasing, the high lake levels was formed during this time, and the vegetations were meadows and swamps; V. From 28 000 to 23 000 a BP, temperate Cupressaceae and Betula mixed conifer/deciduous forests grew on mountain and foothill region, grassland developed on plain areas, Salix was on lake and river sides. This indicates a warm and moist climate condition but it was drier than the earliest period.     

Holocene Palynological Records in Lake Selincuo,Northern Xizang

Selincuo (31°34′–31°57′N, 88°31′–89°21′E)is one of the great lakes in northern Xizang surrounded by alpine grassland, composed mainly of Stipa purpurea, S, subssessifolia var. bassipulomosa. A 3.08 m long core has been taken from a water depth of 27 m, 3 km to the north from the lake. Palynological records of the core combined with surface sample results have revealed from the regional as well as local vegetational and environmental history since the last 12 000 a BP, a very low pollen concentration (19–209 grains/g), mainly of airborne pollen, which indicated a treeless alpine sparse vegetation. A great vegetation change took place at Ca. 9 600 a BP when alpine sparse vegetation was replaced by alpine grassland lasting until Ca. 6 000 a BP. Quite a number of tree pollen grains found in this time interval might be explained as a result of expansion of forests somewhere around the Xizang Plateau. These changes must have caused by climatic warming during the Early Holocene. During the last 6 000 years the vegetation had remained as the alpine grassland, although probably more luxurouste than before, but their was an obvious increase of arboreal pollen, such as the increase of Abies during Ca. 6 000–4 000 a BP, Picea 4 000–2 200 a BP, Pinus 2 200–1 000 a BP which indicated continuous expansion of forests growing around the plateaus. During the last 1 000 years both the concentration and proportion of the arboreal pollen decreased and those of Cypraceae pollen increased sharply. This might mean a reduction of the forests around the plateau and an expansion of swamps around the lake.     

A 37,500-year pollen record from Lake Malaŵi and implications for the biogeography of afromontane forests

Abstract. Two 10-metre cores were analysed and a 37,500 year pollen stratigraphy was established for Lake Mala?i. A lowstand from 37,500 to 35,900 BP indicates extremely dry conditions. From 35,900 to 34,000 BP montane forests were widespread indicating cold, moist climate. Between 34,000 and 26,400 BP warm and dry conditions prevailed and forest area decreased. During the Last Glacial Maximum montane forest was widespread in the catchment, although woodlands apparently persisted at low altitudes: the expansion of the montane forest indicates that the aridity that affected equatorial Africa during this time period did not affect the Lake Mala?i Catchment. The cold and relatively moist conditions during the Late Pleistocene probably allowed biotic interchange between the highlands of East and West Africa via the highlands along the Zaire—Zambezi watershed and among now-isolated islands of Afromontane vegetation in the Lake Mala?i catchment. The Holocene is characterized by climate and vegetation quite similar to today, with indications of slightly wetter conditions between 6150 and 3000 bp and slightly drier conditions between 8000 and 6150 bp . The low percentages of montane forest pollen throughout the Holocene support the hypothesis that the montane grasslands of Mala?i are not recently anthropogenic.     

Terrestrial Biomass-Reconstruction for the Pleniglacial and the Holocene Climatic Optimum Around 7000 cal yr BP in Europe

The aim of this research was to estimate the former below- and aboveground biomass during the Last Pleniglacial (22,000 cal yr BP) and during the Holocene climatic optimum, the Atlantic Period (7,000 cal yr BP). Vegetation distributions and soil conditions during these periods were reconstructed according to published literature. Using the present-day bio-masses of similar (but not identical) vegetation and soil types as analogues, estimates of the terrestrial biomass were made for 22,000 and 7,000 cal yr BP. Biomass was low during the Pleniglacial, representing only 5.0 to 12.5 Gt. This reflects weak soil development under cold climatic conditions, combined with soil erosion due to severe frost and strong wind. The results are compared with other biomass reconstructions for the Pleniglacial. The values for terrestrial biomass of the Pleniglacial presented in this paper are much lower than the results of the various studies for this time slice. These differences are likely to be related to the method applied. Biomass was high during the Holocene climatic optimum around 7,000 cal yr BP, representing 261 to 325 Gt compared to 232 to 273 Gt in the present potential situation and 165 to 197 Gt in the present-day real situation. This reflects intensive soil development under warm and moist conditions during the climatic optimum of the Holocene. These results demonstrate the fluctuation of C-content in terrestrial ecosystems since the Last Glacial Maximum on the European continent.     

Late- and post-glacial vegetation and climate history of the south-western Taymyr Peninsula, central Siberia, as revealed by pollen analysis of a core from Lake Lama

On the Taymyr Peninsula and Severnaya Zemlya Archipelago, Central Siberia, a joint German/Russian multidisciplinary research project focuses on the Late Quaternary history of climate and environment. Within the scope of this project, palynological studies were carried out on a 10.8-m core from Lama Lake, situated in the south-west of the research area. The core, which did not reach the base of the lacustrine sediments, reveals the vegetation and climate history of the last 17 000 years and demonstrates that this area was not glaciated during that time. The Pleistocene/Holocene transition is, as elsewhere in the northern hemisphere, characterized by increased temperatures during the Bølling, Allerød and Preboreal with interruptions during the Older (post-Bølling) and Younger Dryas events. The Holocene climate optimum at Lama Lake probably occurred within the Boreal period, when dense larch forests developed. The Atlantic period was characterized by warm conditions that favoured the establishment of larch-spruce forests, though a climatic deterioration is also recorded. During the Subboreal, spruce fluctuated in importance, on the basis of which it is suggested that there were two cool periods with an intervening warm period. Since 3000 B.P., the climate has become considerably cooler and forests have degenerated. During the last 1000 years, unfavourable climate conditions have resulted in a forest tundra and widespread tundra communities developing in the Lama Lake region.This paper is dedicated to Hans-Jürgen Beug on the occasion of his 65th birthday.     

Influence of Hydrological Conditions on the Formation of Forested Peatlands and Shallow-Peat Forests at Watersheds in the Central Forest Nature Reserve

The spatial variability of the water regime determined by peat-deposit structure and surface slope is characteristic of watershed forested peatlands and shallow-peat forests that belong to similar forest types The specific features of the water regime determine the tree-stand structure, the composition of the herb–shrub and moss tiers, and the reaction to climatic changes of the past. The history of forested peatlands formation is comparable in duration to that of large peatbog massifs formation. An increase in wood-macrofossils content in peat is characteristic of warm periods of the Holocene. Conversely, a decrease in wood-macrofossils content accompanied by an increase in sphagnum moss remains, intensive growth of the deposit, and paludification of the adjacent forests were timed to the cold periods. The climatic factor was shown to determine the general direction of forested peatlands development, whereas the hydrological features of the site determined the variety of scenarios and resistance to environmental changes.     

云贵高原抚仙湖近13300年的花粉/炭屑记录*

抚仙湖是云贵高原著名的断陷深水湖,其沉积物蕴藏着流域地质历史时期丰富的环境信息。对钻取自该湖的900cm 湖泊沉积物岩芯进行花粉/炭屑分析及花粉数据的主成分分析表明,抚仙湖流域的植被、气候与火灾在过去的13 300年经历了5个阶段的变化：(1)13 300—10 400cal．a BP,植被以松林为主,伴有山地暗针叶林和常绿阔叶林,表明该时期气候较为冷湿,森林火灾多发,在后期随着温度和湿度的降低,森林火灾愈加频繁。(2)10 400—5 700cal．a BP,松林收缩,常绿阔叶林扩张,出现一定数量的落叶阔叶林,显示该时期气候偏暖偏干;此阶段早期随着气候变暖变干森林火灾的发生延续上阶段高发的状态,直到9 500cal．a BP后随着湿度的增加森林火灾明显减少。(3)5 700—1 800cal．a BP,松林变化较小,常绿/落叶阔叶林比重增大,首次出现了暖热性的枫香林,显示该时期暖湿的气候特征,火灾发生频率低。(4)1 800—500cal．a BP,松林扩张,阔叶林收缩,本阶段后期草本植被比重开始增加,显示该时期气候相对冷干,森林火灾发生频率较高。(5)500cal．a BP至今,松林收缩,落叶阔叶树种增多,草本植物花粉明显增多,显示该时期气候温凉偏干,森林火灾发生频率降低。     

北京地区全新世植被和气候变化研究进展

该文综述了北京地区全新世以来植被演替和气候变化的相关研究资料,这些资料反映了当前阶段对该地区该时段植被与气候环境格局特征的认识。北京地区全新世早期(约12 000–8 000 cal a B.P.)植被为森林草地和/或针叶树占主导的针阔混交林,森林中阔叶树类群逐渐增多,指示了气候由寒冷干燥转为温暖湿润;全新世中期(约8 000–2 000 cal a B.P.前后)植被为暖温带针阔混交林,指示暖湿气候;全新世晚期(约2 000 cal a B.P.以来)转为森林草地和/或针叶树占主导的针阔混交林,气候转向凉干。植被演替反映的湿润度变化与季风区其它地区变化趋势一致。值得注意的是,前人研究揭示北京地区山区与平原中植被类型和类群组成已经出现空间分异。今后如能深入开展定量古气候重建研究,有可能精确描述其气候变化的过程,增进中国不同地理单元同时期气候变化的对比。     

Refugial ecosystems in central Asia as indicators of biodiversity change during the Pleistocene–Holocene transition

Site-scale species richness (alpha diversity) patterns are well described for many present-day ecosystems, but they are difficult to reconstruct from the fossil record. Very little is thus known about these patterns in Pleistocene full-glacial landscapes and their changes following Holocene climatic amelioration. However, present-day central Asian ecosystems with climatic features and biota similar to those of the full-glacial periods may serve as proxies of alpha diversity variation through both space and time during these periods. We measured alpha diversity of vascular plants, bryophytes, macrolichens and land snails, as well as environmental variables, in 100-m² plots located in forests and open habitats in the Russian Altai Mountains and their northern foothills. This region contains adjacent areas that possess climatic and biotic features similar to mid-latitude Europe for both the Last Glacial Maximum and contemporaneous Holocene ecosystems. We related alpha diversity to environmental variables using generalized linear models and mapped it from the best-fit models. Climate was identified as the strongest predictor of alpha diversity across all taxa, with temperature being positively correlated to number of species of vascular plants and land snails and negatively correlated to that of bryophytes and macrolichens. Factors important for only some taxa included precipitation, soil pH, percentage cover of tree layer and proportion of grassland areas in the landscape around plots. These results, combined with the high degree of similarity between the current Altai biota and dry-cold Pleistocene ecosystems of Europe and northern Asia, suggest that vascular plant and land snail alpha diversity was low during cold phases of the Pleistocene with a general increase following the Holocene climatic amelioration. The opposite trend probably existed for terricolous bryophytes and macrolichens.