晚更新世以来贵州清水江阶地发育及地貌意义

对贵州清水江上游马寨、翁东、三江、施洞沿江4个剖面的阶地特征、年代学结果进行了综合分析。发现以凯里断层为界,上游地区的马寨和翁东2个剖面的T2阶地形成时代约为51~57 ka B.P.,T1阶地的形成时代约为25 ka B.P.,下游地区的三江和施洞2个剖面的T2阶地形成时代约为122~102 ka B.P.,T1阶地的形成时代约为78 ka B.P.。选取各剖面的T2阶地的基座高度来计算了河流下切速率,发现上游地区2个剖面（马寨、翁东）的河流下切速率较接近,约为0.41~0.34 m/ka,明显高于下游地区的2个剖面（三江、施洞）的0.16~0.20 m/ka,表现为上游下切速率高,越往下游方向下切速率逐渐降低。这表明自晚更新世以来,清水江上游区域受到构造作用的影响而发生差异抬升,具体表现为西部构造抬升幅度大,阶地下切速率快;东部构造抬升幅度小,阶地下切速率慢。     

从阶地砾石的统计特征看保德至克虎段河流演化

通过对保德至克虎段不同地点砾石的岩性、粒径和产状的野外统计与测量,并对不同地点和不同阶地上砾石的岩性、粒径和产状进行对比,发现同一地区不同阶地砾石岩性具有很好的相似性,不同地区同一阶地砾石中灰岩砾石成分从上游向下游由主导成分变为次要成分,灰岩砾石粒径也从大变小,反映该区砾石为南北向古黄河冲积物。由于较老的一套砾石层为晚第三系红粘土所覆盖,说明黄河至少在晚第三纪已经在该区已形成。     

贵州高原北部河流阶地发育与喀斯特地貌演化

贵州高原北部发育平缓丘丛和深切峰丛2种喀斯特地貌组合,保存于喀斯特山间盆地的河流阶地对区域地貌演化具有指示意义。本文根据阶地发育特征和光释光（OSL）测年,分析阶地形成的时代和动力,结合区域地质背景,探讨构造抬升和河流侵蚀对黔北喀斯特地貌演化的驱动作用。结果显示,绥阳盆地T1阶地时代18.8~8.2 ka,T2时代144.4~104.1 ka;旺草盆地T1年龄为5.5 ka,T2年龄为45.1 ka。绥阳盆地阶地以漫滩相沉积物为主,旺草盆地阶地则多切割了白云岩基岩。分析认为,气候条件影响了阶地的沉积过程,但差异性构造抬升应为区域河流阶地差异发育的主要因素。阶地测年显示,旺草盆地的河流平均下切速率明显高于绥阳盆地,表明芙蓉江流域构造抬升和河流下切强度明显高于洋川河。在差异性构造抬升和河流侵蚀综合作用下,北部大娄山区形成了深切的喀斯特峰丛-峡谷地貌,南部乌江中游流域则发育以平坦盆地和宽缓丘丛为主的地貌组合。     

三峡库区长江阶地冲积物的年代测定

三峡库区的长江阶地是研究川江、峡江水系演变的重要证据。发育冲积物的阶地主要出现在库区西半部的川东和重庆的中低山、丘陵区,最多有6级。阶地研究中遇到的主要问题是难以确定阶地的形成时代。我们采用TL法和ESR法测量了三峡库区6个地点阶地的堆积年龄。测量数据显示,ESR法基本不适合测定三峡库区冲积物的年龄;尽管TL法本身存在缺陷,但测得的T1~T4的堆积年龄得到其他独立的测年结果的支持。阶地T1~T4的TL年龄依次为7~17 ka、28~46 ka、62~81 ka和103~105 ka。此外,根据年代地层对比的方法以及前人的古地磁测量结果,推测三峡库区第四级阶地的年龄大于101 ka,第五级阶地的年龄大于392 ka,而第六级阶地的年龄小于780 ka。从而初步建立了三峡库区阶地堆积的时间序列。     

Sequences and genesis of the Yellow River terraces from Sanmen Gorge to Kouma

Based on field landscape investigations, thermoluminescence (TL), magnetostratigraphy and loess-paleosol sequence, we found that there are at least four Yellow River terraces, whose ages are 0.86 Ma, 0.62 Ma, 0.13 Ma and 0.05 Ma, in Yuxi Fault-Uplift (from Sanmen Gorge to Mengjin) and at least three Yellow River terraces, whose ages are 1.24 Ma, 0.25 Ma and 0.05 Ma, in Huabei Fault Depression (from Mengjin to Kouma). All the terraces have a similar structure that several meters of paleosols directly develop on the top of fluvial silt. It shows that the Yellow River incised and consequently abandoned floodplain converted to terrace during the interglacial period. Therefore, there may be a link between the formation of terraces and glacial-interglacial climatic cycles. However, the differences in the Yellow River terrace sequences and ages between Yuxi Fault-Uplift and Huabei Fault Depression indicate that the surface uplift should play an important role in the formation of these terraces.     

河流对0.8 Ma B.P.环境突变事件的地貌响应研究

以兰州盆地0.8 Ma B.P.阶地为例证,运用古地磁测年方法,通过收集相关文献,分析讨论了0.8 Ma B.P.阶地与0.8 Ma B.P.环境突变事件的联系。结果表明：① 0.8 Ma B.P.环境突变事件主要表现在气候转型、构造运动等方面,具有群发性和全球性特点;② 兰州盆地以及其他区域0.8 Ma B.P.阶地存在的证据,表明河流在0.8 Ma B.P. 前后普遍发生过一次下切事件;③ 0.8 Ma B.P.阶地是河流对0.8 Ma B.P.环境突变事件的地貌响应,构造运动为提供了下切驱动力,而气候变化则控制了下切时间。     

粤西河流阶地的分布与特征

依据广东西部超过18条河流、39处河流阶地、至少35个14C、热释光的冲积层测龄数据等情况,可知粤西最多有4级河流阶地(不包括湛江组和北海组阶地);多数河流最高阶地靠近现代主河床分布,深切曲流中有河流阶地,反映近数十万年来河床改道不大;西江在封开有广东高度最高(76 m)的河流阶地,而广东高度最高的地下河阶地是111 m,大致显示出地面与地下剥蚀强度的差异;通常山区河流长度越大,河漫滩和河流阶地的高度越大,河流阶地的级数和级别也常增加;在河流上游的下段和中游的上段,河流阶地的高度最大且级数也最多;在晚更新世之前与后,河谷中下游地区的新构造运动趋势由上升变为稳定或沉降;连滩盆地是广东全新世构造沉降最典型的山间盆地。     

黄土高原0.8Ma以来地面抬升的时空特征研究

根据黄土高原地区黄河阶地的形态特征和成因分析,认为其形成主要是地面抬升所致并且在黄河达到均衡状态下形成,可以推断黄土高原的地面抬升。根据对黄土高原地区黄河0.8 Ma阶地的研究并结合相关文献资料,选取兰州段、黑山峡段、晋陕峡谷段和三门峡段作为典型研究区域,得出黄土高原0.8 Ma以来的地面抬升存在显著的时空特征,即空间特征表现为地面抬升量有西大东小的规律,时间特征表现为地面抬升速率有后期加速趋势、特别是晚更新世以来。并认为黄土高原0.8 Ma以来的地面抬升与青藏高原的构造抬升有成因上的联系。     

Periglacial geomorphology of the Appalachian highlands and interior highlands south of the glacial border — A review

Many features reported in the Appalachian region have been assigned a paleoperiglacial origin based on field relationships and their similarities with analogs active in present day actuoperiglacial environments. These forms include, but are not limited to, sorted and nonsorted varieties of patterned ground, grèzes litées, block fields, block slopes, and block streams, cryoplanation terraces, and hillslope and river terrace landscapes. Although very small-scale features (generally less than 1 m in plan or section dimension) and some larger forms on steep hillslopes are known to be at least sporadically active today, the large-scale features discussed here are interpreted as either inactive or truly fossil periglacial phenomena. Thus they hav implications for paleoclimatic reconstruction and significance as indicators of relative landscape stability since the time(s) of their development. This paper briefly reviews the historical dimension of early researchs' work, present selected examples of recent results, and gives authors' conclusions.     

Desert pavement characteristics on wadi terrace and alluvial fan surfaces: Wadi Al-Bih, U.A.E. and Oman

In arid mountain areas, the dating and correlation of alluvial depositional surfaces is often uncertain. Especially in regions where the geomorphology is not well known, surface modification by the development of soil and desert pavement may allow the correlation of geomorphic surfaces and estimation of at least their relative ages. Pleistocene wadi terraces and associated alluvial fans occur in Wadi Al-Bih, U.A.E. and Oman, for which correlations and age relationships are not known. Three age-related groups of fans and terraces have been identified and mapped on the basis of their morphostratigraphic relationships. Deposition of the oldest terrace sediments and associated fans followed a long period of sustained incision after Miocene uplift of the region. The younger two groups of terraces and fans are inset within the older group. To identify the gross effects of pavement development, comparisons have been made between terrace surface and subsurface particle-size distributions. The older terraces have finer surface sediments and a greater contrast between finer surface and subsurface sediments than the younger terraces. This reflects the degree of pavement development. Particle size on the fan surfaces is comparable with that on the equivalent terrace surfaces. Criteria for the classification of pavements were developed based on clast fracturing and angularity, size, sorting, packing, and surface texture, from which a simple index of pavement development has been derived. Other properties, rock varnish and weathering characteristics, were also recorded; but these proved to be less discriminatory than pavement characteristics. The pavement data have been augmented by observations on soils. Detailed studies of pavements on terraces (8 sites, 12 samples covering the three age groups) and fans (5 sites, 10 samples covering the three age groups) allow differentiation between age-groups. The three terraces show three different age-related pavement types, expressed by differences in the pavement development index. Weakly-developed pavements (little fracturing, sub-rounded clasts, some modification of the depositional fabric, incipient soil development, stage I CaCO₃ accumulation) occur on the youngest terrace and fan surfaces. Moderately-developed pavements (clast fracturing, sub-angular clasts, moderate sorting and packing, deeper soil development, stage II CaCO₃ accumulation) occur on the middle terrace and fan surfaces. Well-developed pavements (complete clast fracturing into small angular fragments, mature sorting and packing of the pavement surface, deep soil development with strong horizonation, stage III CaCO₃ accumulation) occur on the highest terrace and oldest fan surfaces. There are minor differences between the youngest pavements on terraces and fans, which reflect initial sedimentological differences. These differences become less as the pavements develop. On the basis of comparative studies, the oldest terrace is estimated to date from sometime prior to ca. 100 ka BP, the second terrace and the most extensive fan surface from the Late Pleistocene, and the youngest terrace and fan phase from the Latest Pleistocene or Early Holocene.     

ASYNCHRONOUS TERRACE DEVELOPMENT IN DEGRADING BRAIDED CHANNELS

Terrace remnants are commonly used to reconstruct longitudinal profiles of rivers and floodplains, and to establish temporal correlations of events in fluvial systems. In most cases, it is assumed that the terrace remnants represent time-equivalent surfaces. Our observations of terrace formation in flume experiments and in a degrading braided river, Ash Creek, Arizona, suggest that this assumption is not always valid. Degradation resulted from a reduction in upstream sediment delivery to braided channels. In both the flume and Ash Creek, degradation in the upstream reach produced a number of inset terraces, while the production of sediment in the degrading reach simultaneously caused further aggradation downstream. Thus, stratigraphically lower surfaces in the upstream reaches are temporally equivalent to higher surfaces in downstream reaches. The downstream progression of the wave of incision produced more terraces upstream than downstream, and terrace surfaces could not be correlated on the basis of relative position or elevation above the channel bed. Furthermore, a physically continuous terrace tread was produced by longitudinal accretion of temporally non-equivalent depositional segments, as the locus of deposition progressed downstream. Therefore, in some instances, physically continuous terrace treads may not be time-equivalent surfaces that represent former channel bed or floodplain profiles. [Key words: terrace development, degradation, braided channels, channel pattern change.]     

黄河三门峡至扣马段的阶地序列及成因

Based on field landscape investigations, thermoluminescence (TL), magnetostratigraphy and loess-paleosol sequence, we found that there are at least four Yellow River terraces, whose ages are 0.86 Ma, 0.62 Ma, 0.13 Ma and 0.05 Ma, in Yuxi Fault-Uplift (from Sanmen Gorge to Mengjin) and at least three Yellow River terraces, whose ages are 1.24 Ma, 0.25 Ma and 0.05 Ma, in Huabei Fault Depression (from Mengjin to Kouma). All the terraces have a similar structure that several meters of paleosols directly develop on the top of fluvial silt. It shows that the Yellow River incised and consequently abandoned floodplain converted to terrace during the interglacial period. Therefore, there may be a link between the formation of terraces and glacial-interglacial climatic cycles. However, the differences in the Yellow River terrace sequences and ages between Yuxi Fault-Uplift and Huabei Fault Depression indicate that the surface uplift should play an important role in the formation of these terraces. Foundation: Science and Technology Planning Project of Yunnan Province, No.2007D199M; National Natural Science Foundation of China, No.40462002; No.40161002 Author: Su Huai (1977–), Ph.D, specialized in geomorphology and Quaternary geology.     

黄河三门峡至扣马段的阶地序列及成因

通过对黄河三门峡至扣马段的野外地貌调查, 结合黄土地层学、年代学分析, 发现黄 河在位于豫西断隆的三门峡至孟津段发育至少4 级阶地, 其形成时代由老到新分别为: 0.86 Ma BP、0.62 Ma BP、0.13 Ma BP 和0.05 Ma BP; 在位于华北断坳的孟津至扣马段仅发育 3 级阶地, 形成时代分别为: 1.24 Ma BP、0.25 Ma BP 和0.05 Ma BP。黄河各级阶地的河流 相沉积物顶部都有一层古土壤发育表明, 黄河下切形成阶地的过程发生在古土壤发育的间冰 期, 气候变化对阶地的形成有一定影响, 但是, 黄河流经豫西断隆和华北断坳两个抬升状况 差异较大的构造单元所表现出来的阶地序列和年代的迥然差异则证明了地面抬升也是控制黄 河阶地发育的重要因素。     

RAISED MARINE TERRACES ALONG THE GULF OF ADEN COAST OF SOMALIA

Mapping in the Galweda-Elayu area of northern Somalia has revealed depositional and erosional marine terraces at elevations of approximately 16 m, 8 m, and 2 m. These terraces vary from 0–2300 m, 200–2200 m, and 0–800 m in width, respectively. Sediments exposed in stream-valley walls demonstrate that the two higher terraces were formed by marine transgressions followed later by regressions to below present sea level. Beach ridges on the terraced alluvial fan at the mouth of togga Galweda imply that sea level and/or land elevation varied by at least 6 m during the formation of the 16-m terrace and by at least 3 m during the formation of the 8-m terrace. ²³⁰Th/²³⁴U ages of corals suggest that the 8-m terrace was formed during deep-sea isotope substage 5c (105 kyr B.P.) and the 2-m terrace during substage 5a (80 kyr B.P.). A 7-kyr-old coral from above the present storm beach on the outer flanks of the 2-m terrace suggests that sea level in the Gulf of Aden was close to its present level by the middle Holocene. No material suitable for dating was recovered from the 16-m terrace, but on morphological grounds and based on marine-terrace elevations elsewhere in the Red Sea-Gulf of Aden rift zone, we believe that the 16-m terrace was formed during isotope substage 5e (132–120 kyr B.P.), when global sea level was about 6 m above present.     

中国梯田撂荒程度及空间格局分异研究

在城镇化和工业化的驱动下,中国丘陵山区耕地逐渐被边际化,耕地撂荒范围也迅速从劣质的坡耕地延展至优质的梯田,大规模梯田撂荒将会引发一系列社会和生态效应,科学评估中国山区梯田的撂荒程度及空间分布将有助于有效地应对耕地撂荒问题。本文通过全国抽样调查的方式对中国梯田的撂荒程度进行了调查,利用获取的中国329个县的560份村问卷测算了中国梯田撂荒规模,并进一步分析了梯田撂荒空间分异特征及驱动因素。结果显示：(1)全国梯田撂荒现象分布广泛,发生梯田撂荒的村庄占总调查村庄的比例为54%,撂荒面积占梯田总面积的比例达到9.79%;(2)梯田撂荒程度呈现“南高北低”的特征,南方丘陵山区较为严重,尤以长江中下游地区为最;(3)梯田撂荒的主要因素可归结为农业劳动力外出务工、梯田耕作机械化程度、灌溉条件、耕作交通条件等。减缓梯田撂荒,应因区精准施策,提高梯田区机械化水平等措施具有普适性,针对质量较差的梯田,可有序“退耕”,对于质量较好的梯田,可采用调整种植结构、加强农业基础设施建设、鼓励流转与规模经营等方式。     

山西保德黄河最高阶地形成的时代

野外调查发现山西保德地区存在六级阶地序列,其中第四级阶地在保德保存最为完好,而最老的第六级阶地为晚第三纪阶地。保德地区各级阶地上砾石的岩性都以灰岩为主,砂岩次之,表明晚第三纪阶地与黄河低阶地物源相同,应该是黄河阶地。在磨扇沟T6阶地上覆厚度超过51 m的红粘土层,磁性地层的研究表明,该红粘土的底部年代在6.5 Ma左右,这与保德冀家沟的研究结果吻合,说明保德地区黄河最高阶地形成的时代约在6.5 Ma左右。而黄河则可能是伴随着8.0 Ma左右青藏高原东北缘的强烈隆升而形成。     

PERIGLACIAL MODIFICATION OF THE COX TOR—STAPLE TORS AREA OF WESTERN DARTMOOR,ENGLAND

The Pleistocene periglacial legacy to the geomorphology of Dartmoor has been substantial. This paper examines some of these relict features in an area of western Dartmoor. The major features are tors, altiplanation terraces, boulder accumulations in a variety of patterns, and earth mounds. The tors and altiplanation terraces indicate the degree of slope modification created by frost action. The block-fields (clitter) are arranged into stripes, runs and garlands. Narrow stripes start and finish in midslope positions, while boulder runs converge and diverge, apparently at random. The long axis orientation of boulders in stripes is roughly in accord with the direction of the steepest slope, whereas orientation of boulders in blockfields is more variable. The altiplanation terraces and earth mounds occur on Cox Tor, which is composed of diabase. This contrast in rock type seems to explain the lack of similar features on the granite areas. The diabase is very closely jointed and weathers to a silt grade. The earth mounds are thought to be the result of frost thrusting in a silt-based soil. The general conclusion is that many of the landforms of Dartmoor are relicts from periglacial activity during the last glacial period. [Key words: periglaciation, tors, solifluction, Dartmoor.]     

Morphometric Analysis on the Size, Shape and Areal Distribution of Glacial Cirques in the Maritime Alps (Western French-Italian Alps)

The morphometry of 432 glacial cirques in the Maritime Alps (Western French‐Italian Alps), studied over several years of fieldwork, was analysed with the use of a geographical information system. Some of the parameters automatically evaluated from digital elevation models required an objective and relatively new definition. In particular, cirque length was measured along a line that, from the threshold midpoint, splits the cirque into two equivalent surfaces; cirque width was automatically drawn as the longest line inscribed in the cirque and perpendicular to the length line. Significant correlations were found among the different factors and parameters analysed. In particular, cirque shape analysis showed that cirques develop allometrically in the three dimensions, i.e. more in length and width than in altitudinal range. Nevertheless cirques of the Maritime Alps have a regular, almost circular shape (mean L/W value = 1.07). The correlations among length, width and area are all very high (r²= 0.8–0.9). In terms of size, cirques show a wide range in area from 0.06 to 5.2 km² with a mean value of 0.4 km². The largest cirques are found on SSW‐facing slopes and at high elevations. Small cirques can be found at all altitudes but all those at high elevation are part of compound cirques at the main head valleys. Most cirques (37%) are characterized by a northern aspect; NE and SW are also frequent directions.     

台湾西北部海岸阶地的研究

海岸阶地的形成通常是海准面变动、地壳变动或两者共同作用之结果．研究海阶不仅可印证推论古气候、往昔海准面变化及地壳变动状况,更可藉以了解各区域间变动的差异,全盘了解大地构造的意义,而且小规模的海阶变动,时常与地震活动伴生,因此,研究海阶更可作为判读地震周期的依据之一,所以,世界各地位于地壳活动带的国家对于海阶的型态与演育过程均作详细的调查及研究．本研究以淡水河以南至大安溪以北之海阶作为研究范围,发现台湾西北部位于观音山北部沿海、新竹山子顶沿海、客雅溪口南岸、后龙溪口南岸等4个地区,都有零星的海阶分布．经过阶地分布、地形特征与阶序对比,并利用世界海阶对比基图求出该地区的地壳隆升率与海阶可能形成的年代,藉以了解各区域间变动的差异．台湾西北部海岸地区的海阶大致上可划分为高位及低位2群阶：也,高位海阶分布的高度在15～275m之间,阶面覆盖着红壤层,为晚更新世时所造成;低位海阶分布的范围与高度较小,在海滩与高位阶地末端阶崖之间,沿着海岸成带状分布,阶面无红壤掩覆,海拔大多在10m以下．低位海阶构成的物质多以砾石及砂为主,属全新世海阶,即第四纪最后一次冰期结束后,近1万年以来全球高海水位时期所形成．利用海阶对比基图与已有的定年数据,辅以地形地貌及堆积物特征比较,获得各段阶地之平均隆升率,观音山北部沿海、客雅溪口南岸、后龙溪口南岸3个地区,经过比对,分别是2．1mm／a、2．2mm／a、2．15mm／a,数值相近,显示该区之地盘隆升率及海准面变动状况大致相同;仅新竹山子顶沿海地盘隆升率较小,为1．4mm／a．此表示,台湾岛的海阶变化不仅受到海准面变动的影响,尚受到区域性地壳隆升的控制．     

Geomorphic appraisals of active tectonics associated with uplift of the Gohpur–Ganga section in Itanagar, Arunachal Pradesh, India

The Gohpur–Ganga section is located southwest of Itanagar, India. The study area and its adjacent regions lie between the Main Boundary Thrust (MBT) and the Himalayan Front Fault (HFF) within the Sub-Himalaya of the Eastern Himalaya. The Senkhi stream, draining from the north, passes through the MBT and exhibits local meandering as it approaches the study area. Here, five levels of terraces are observed on the eastern part, whereas only four levels of terraces are observed on the western part. The Senkhi and Dokhoso streams show unpaired terraces consisting of very poorly sorted riverbed materials lacking stratification, indicating tectonic activity during deposition. Crude imbrications are also observed on the terrace deposits. A wind gap from an earlier active channel is observed at latitude 27°04′42.4″ N and longitude 93°35′22.4″ E at the height of about 35 m from the present active channel of Senkhi stream. Linear arrangements of ponds trending northeast–southwest on the western side of the study section may represent the paleochannel of Dokhoso stream meeting the Senkhi stream abruptly through this gap earlier. Major lineament trends are observed along NNE–SSW, NE–SW and ENE–WSW direction. The Gohpur–Ganga section is on Quaternary deposits, resting over the Siwaliks with angular contact. Climatic changes of Pleistocene–Holocene times seem to have affected the sedimentation pattern of this part of the Sub-Himalaya, in association with proximal tectonism associated with active tectonic activities, which uplifted the Quaternary deposits. Older and younger terrace deposits seem to mark the Pleistocene–Holocene boundary in the study area with the older terraces showing a well-oxidized and semi-consolidated nature compared to the unoxidized nature of the younger terraces.