排序方式: 共有43条查询结果,搜索用时 359 毫秒
1.
2.
3.
4.
5.
The filling history of the Níspero deeply buried Lower Cretaceous carbonate reservoir (below 4000 m) from the south part of Gulf of Mexico was studied using a combination of data from petrography, stable isotopes and fluid inclusions and compared with a one-dimensional burial model to derive timing. 相似文献
6.
在鳗弧菌侵染下,利用SMART方法构建了青蛤的cDNA文库,并采用高通量测序方法和BLASTX比对筛选出ESTs及免疫相关因子的基因.结果表明,所构建的cDNA文库的库容量为1.12×106,插入片段均在500bp以上;大于100bp的有效ESTs序列1113条,平均长度725bp,拼接后获得一致性序列420条,其中包括126个叠联群和294个单拷贝EST,BLASTX比对后获得注释序列271条,进一步筛选获得青蛤免疫相关因子基因序列45条,为克隆其免疫防御相关因子的基因提供了重要的基础. 相似文献
7.
8.
Penelope A. Luckens 《新西兰海洋与淡水研究杂志》2013,47(4):497-514
The breeding and settlement seasons of the intertidal barnacles Chamaesipho brunnea, C. columna and Elminius plicatus were determined, and experiments using cages on the shore to examine barnacle survival and growth rate at four levels were carried out at Leigh during 1964–66. Chamaesipho brunnea bred in spring and summer; C. columna and E. plicatus bred throughout the year, but settled intermittently. When protected from predators and from overgrowth by algae, all three species survived at levels lower than normal. At higher levels C. columna, E. modestus, Balanus trigonus and Tetraclita purpuraseens survived for significant periods (C. brunnea occurs naturally higher on the shore than the highest experimental level). 相似文献
9.
10.
Monitoring gravel augmentation in a large regulated river and implications for process‐based restoration
下载免费PDF全文
![点击此处可从《地球表面变化过程与地形》网站下载免费的PDF全文](/ch/ext_images/free.gif)
Fanny Arnaud Hervé Piégay David Béal Pierre Collery Lise Vaudor Anne‐Julia Rollet 《地球表面变化过程与地形》2017,42(13):2147-2166
The artificial gravel augmentation of river channels is increasingly being used to mitigate the adverse effects of river regulation and sediment starvation. A systematic framework for designing and assessing such gravel augmentations is still lacking, notably on large rivers. Monitoring is required to quantify the movement of augmented gravel, measure bedform changes, assess potential habitat enhancement, and reduce the uncertainty in sediment management. Here we present the results of an experiment conducted in the Rhine River (French and German border). In 2010, 23 000 m3 of sediments (approximately the mean annual bedload transport capacity) were supplied in a by‐passed reach downstream of the Kembs dam to test the feasibility of enhancing sediment transport and bedform changes. A 620‐m‐long and 12‐m‐wide gravel deposit was created 8 km downstream from the dam. Monitoring included topo‐bathymetric surveys, radio‐frequency particle tracking using passive integrated transponder (PIT) tags, bed grain size measurement, and airborne imagery. Six surveys performed since 2009 have been described (before and after gravel augmentation, and after Q2 and Q15 floods). The key findings are that (i) the augmented gravel was partially dispersed by the first flood event of December 2010 (Q1); (ii) PIT tags were found up to 3200 m downstream of the gravel augmentation site after four years, but the effects of gravel augmentation could not be clearly distinguished from the effects of floods and internal remobilization on more than 3500 m downstream; (iii) linear and log‐linear relationships linking bedload transport, particle mobility, and grain size were established; and (iv) combined bathymetry and PIT tag surveys were useful for evaluating potential environmental risks and the first morpho‐ecological responses. This confirmed the complementary nature of such techniques in the monitoring of gravel augmentation in large rivers. Copyright © 2017 John Wiley & Sons, Ltd. 相似文献