Infiltration on mountain slopes: a comparison of three environments

Water is well established as a major driver of the geomorphic change that eventually reduces mountains to lower relief landscapes. Nonetheless, within the altitudinal limits of continuous vegetation in humid climates, water is also an essential factor in slope stability. In this paper, we present results from field experiments to determine infiltration rates at forested sites in the Andes Mountains (Ecuador), the southern Appalachian Mountains (USA), and the Luquillo Mountains (Puerto Rico). Using a portable rainfall simulator–infiltrometer (all three areas), and a single ring infiltrometer (Andes), we determined infiltration rates, even on steep slopes. Based on these results, we examine the spatial variability of infiltration, the relationship of rainfall runoff and infiltration to landscape position, the influence of vegetation on infiltration rates on slopes, and the implications of this research for better understanding erosional processes and landscape change.Infiltration rates ranged from 6 to 206 mm/h on lower slopes of the Andes, 16 to 117 mm/h in the southern Appalachians, and 0 to 106 mm/h in the Luquillo Mountains. These rates exceed those of most natural rain events, confirming that surface runoff is rare in montane forests with deep soil/regolith mantles. On well-drained forested slopes and ridges, apparent steady-state infiltration may be controlled by the near-surface downslope movement of infiltrated water rather than by characteristics of the full vertical soil profile. With only two exceptions, the local variability of infiltration rates at the scale of 10° m overpowered other expected spatial relationships between infiltration, vegetation type, slope position, and soil factors. One exception was the significant difference between infiltration rates on alluvial versus upland soils in the Andean study area. The other exception was the significant difference between infiltration rates in topographic coves compared to other slope positions in the tabonuco forest of one watershed in the Luquillo Mountains. Our research provides additional evidence of the ability of forests and forest soils to preserve geomorphic features from denudation by surface erosion, documents the importance of subsurface flow in mountain forests, and supports the need for caution in extrapolating infiltration rates.     

南天山西段古生代火山岩Ar-Ar年龄新资料

根据新近采自中国南天山西段志留-泥盆系乌帕塔尔坎群中的安山岩样品和石炭-二叠纪康克林组上部英安岩角砾样品的全岩Ar-Ar定年测试,乌帕塔尔坎群安山岩的坪年龄为427.70±0.60 Ma,等时年龄为426.96±4.57 Ma; 康克林组上部的英安岩角砾的坪年龄为288.16±0.40 Ma,等时年龄为289.18±2.02 Ma.测试结果为研究中国南天山(西段)古生代造山带的构造体系提供了新的依据.     

洁居纳卓组:西藏措勤地区的上新统岩石地层单位

分布于措勤县城一带的一套地层在1：100万日喀则幅区调中校划属上新统乌郁群，由下部火山岩和上部沉积岩组成。在1：25万措勘县幅区调中，根据获得的同位素年龄值已将下部火山岩地层划归古新统的典中组，而上部的沉积地层中含圆笠虫等有孔虫化石应属下白垩统。在这一地区还新发现一套陆相碎屑地层，根据其岩性组合、ESR年龄值及区域地层对比，本文将其新命名为上新统洁居纳卓组。     

从尼玛地区地质新资料看中特提斯洋的构造演化

班公湖—怒江结合带南缘存在一套中、晚侏罗世稳定浅海碎屑岩沉积，属残余海盆地沉积，表明尼玛地区的俯冲消减机制在中侏罗世以后已结束。结合带南侧三叠系确哈拉群为一套半深水—深水沉积，是陆架边缘沉积序列，代表结合带打开之初的较早期沉积。确哈拉群之上不整合覆盖了一套中侏罗世钙碱性岛弧火山岩系，是班公湖—怒江结合带在早侏罗世向南俯冲对应的滞后弧火山岩。在结合带南侧80～100km范围内分布着一条东西长超过100km的中晚侏罗世后碰撞强过铝花岗岩带，属班公湖—怒江结合带向南俯冲碰撞作用的后碰撞阶段产物。综合认为，尼玛地区中特提斯洋是在三叠纪打开、中侏罗世以前向南俯冲闭合的。结合区域上该结合带闭合时间有早有晚、俯冲方向有南有北的事实，提出中特提斯是一个具有众多互不相通的、时代早晚各不相同的小洋盆共同组成的多岛洋，其间存在许多大小不一、运动方向和性质各不相同的地体。不同时期、不同方向的弧—弧碰撞、弧—陆碰撞造山(造陆)机制是解释中特提斯洋发展演化诸多问题的理想模式。     

藏北申扎一带下奥陶统拉塞组的发现及意义

吉林省地质调查院在进行1：25万《多巴区幅》区域地质调查时，在西藏北部申扎县一带首次发现一套富含北方珠角石动物群Armenoceras sp.,Wutinoceras sp.,Discoactinoceras multiplerum Kobayashi,Adaomsoceras sp.,Sactoceras sp.,Ordosoceras sp.,Oncoceratida,Ormoceratidae,? Curtoceras sp.,Ormoceras sp.,Liulinoceras sp.,Deiroceras cf.globsom Zholt et Shen及腕足类、牙形刺、苔藓虫、海百合茎等化石的海相碳酸盐岩地层。该地层的岩石组合特征及生物群面貌与区内已知的地层存在明显的差异，其地质时代也明显早于区内已知的其它古生代地层，故建立下奥陶统拉塞组。     

藏北羌塘盆地双湖地区油气成藏条件

藏北双湖地区油气显示有中侏罗统布曲组的隆鄂尼碳酸盐岩古油藏、充填于夏里组石膏孔洞里的沥青和夏里组砂岩夹层中的油页岩。布曲组及索瓦组中的生油岩有机碳含量普遍较高,生油能力大。油页岩的氯仿沥青“A”高达25255×10-6,有机碳含量28.8%,但总烃含量在40%～50%左右,OEP值分别为0.7和0.8,显示有机质演化处于低成熟阶段。有机质中既有Ⅰ型酐酪根,也有Ⅲ型酐酪根。有机质形成环境既有浅海陆棚相开阔型水体环境,也有半封闭型泻湖相等沉积环境。该地区可划分出4套生、储、盖组合,以第一套组合(由曲色组和布曲组组成)为最好。     

Flexural subsidence by 29 Ma on the NE edge of Tibet from the magnetostratigraphy of Linxia Basin, China

This study provides a detailed magnetostratigraphic record of subsidence in the Linxia Basin, documenting a 27 Myr long sedimentary record from the northeastern edge of the Tibetan Plateau. Deposition in the Linxia Basin began at 29 Ma and continued nearly uninterruptedly until 1.7 Ma. Increasing rates of subsidence between 29 and 6 Ma in the Linxia Basin suggest deposition in the foredeep portion of a flexural basin and constrain the timing of shortening in the northeastern margin of the plateau to Late Oligocene–Late Miocene time. By Late Miocene–Early Pliocene time, a decrease in subsidence rates in the Linxia Basin associated with thrust faulting and a 10° clockwise rotation in the basin indicates that the deformation front of the Tibetan plateau had propagated into the currently deforming region northeast of the plateau.     

青藏铁路管道通风试验路基地温变化及热状况分析

基于青藏铁路北麓河试验段管道通风路基在2个冻融循环周期内的地温监测资料，分析了路基温度的发展、温度场分布特征及多年冻土的热流量变化．结果表明：通风管埋设于路堤中部的路基温度变化和发展情况与一般路基类似，路基在施工后的2个冻融周期内仍处于整体升温的过程；通风管埋设于路堤下部的路基，虽然前2个冻融循环周期内土体温度与原始状态相比同样有所升高，但开始出现逐渐降低的趋势，同时地温场的分布在横向上的对称性也比较好，在热交换方面，一般填土路基和通风管位于路堤中部的路基在施工后的前2个冻融循环周期内一直处于吸热过程，而通风管位于路堤下部的路基在经历了第1个周期的持续吸热过程后，在第2个冻融循环周期内已经开始放热。     

Absence of Archean basement in the South Kunlun Block: Nd-Sr-O isotopic evidence from granitoids

Abstract   The West Kunlun mountain range along the northwestern margin of the Tibetan Plateau is crucial in understanding the early tectonic history of the region. It can be divided into the North and South Kunlun Blocks, of which the former is considered to be part of the Tarim Craton, whereas consensus was not reached on the nature and origin of the South Kunlun Block. Samples were collected from the 471 Ma Yirba Pluton, the 405 Ma North Kudi Pluton and the 214 Ma Arkarz Shan Intrusive Complex. These granitoids cover approximately 60% of the Kudi area in the South Kunlun Block. Sr, Nd, and O isotope compositions preclude significant involvement of mantle-derived magma in the genesis of these granitoids; therefore, they can be used to decipher the nature of lower–mid crust in the area. All samples give Mesoproterozoic Nd model ages (1.1–1.5 Ga) similar to those of the exposed metamorphic complex of this block but significantly different from those of the basement of the North Kunlun Block (2.8 Ga). This indicates that the South Kunlun Block does not have an Archean basement, and, thus, does not support the microcontinent model that suggests the South Kunlun Block was a microcontinent once separated from and later collided back with the North Kunlun Block.     

藏南康马地区三叠系研究新进展

根据康马地区三叠系吕村组和涅如组新发现的化石及区域地质背景 ,把该区的地层时代分别厘定为中三叠世中晚期至晚三叠世早期和晚三叠世中晚期 ,并认为缺失早三叠世至中三叠世早期的沉积。研究表明康马地区三叠系与二叠系之间为微角度不整合接触 ,是“藏南运动”和“印支伸展运动”共同影响形成的。晚二叠世末至中三叠世早期 ,康马地区露出海面 ,接受剥蚀并形成喀斯特化风化壳。中三叠世末至晚三叠世 ,这一地区发生强烈伸展—裂陷 ,地壳迅速沉降 ,形成被动大陆边缘裂谷盆地 ,发育巨厚的半深海—深海复理石沉积 ,并伴随大量基性岩浆贯入。涅如组下部有两期基性岩侵入 ,早期基性岩床形成于印支晚期 ,晚期穿层侵入形成于燕山早期。