Noah LSM 3.4.1 binaries for Windows

在Windows 10下利用MinGW编译了Noah LSM 3.4.1。可执行包链接如下:

noahlsm-v3.4.1-ming32.zip (Baidu Pan)

包括 driver.exe 对应simple driver版本,urban_driver.exe对应 urban版本。

提供的可执行文件去掉了NetCDF的支持。

更多细节我已经备注到压缩包里的README-more.txt。

MD5码:

8ee77bc180d1a9228212a7485ff17797  noahlsm-v3.4.1-mingw32.zip

README-more.txt

Notice

This is a Noah LSM 3.4.1 version for Windows, compiled with the latest MinGW version (GNU Fortran 6.3.0). I have tested on my Win10 laptop.

NetCDF support has been removed in this binary version due to its huge time costs in compiling with MinGW. You can use ASCII formart to prepare the model drives as demonstrated in the official example data files (bondville.dat). If you prefer to use NetCDF, you have to compile the sources obtained from the offical web site (Goolging Noah LSM).

Credits please go to the group who developed Noh LSM.

Enjoy your research

Advertisements

2018暑假祁连八宝河—青藏高原野外实践(7/13——7/23/2018)

前期准备

购买保险、常用药品;租车事宜;地形图或下载好离线卫星图;行车路线、住宿预定等事宜。

Day 1,南京——兰州,高铁

租借和购买野外所需仪器和材料;

Day 2,兰州——张掖,高铁,宿张掖

火车上午抵达,下午参观中科院黑河遥感试验站

Day 3,张掖——龙首电站——莺落峡——草滩庄水利枢纽——祁连,宿祁连

龙首电站,讲解水力发电及潜在影响;

莺落峡水库对莺落峡水文站观测结果的影响,讲解径流还原的必要性;

黑河干流莺落峡出来后,部分分流到干渠,其余通过自然河流向下,讲解黑河流域干、支、斗、毛到田间的分级渠系结构,讲解黑河分水方案;

草滩庄水利枢纽对自然河道进一步进行控制,至此分解为东西子渠;

莺落峡水文站、草滩庄水利枢纽结合Google地图的卫星照片可以找到;百度地图缺卫星照

至祁连路上经峨堡、阿柔大寺,可停留。 Continue reading

团队官网上线

基于Wordpress,在小内存的VPS上搭了一个团队官网(http://PermaLab.nanzt.info),然后花了点时间选了一个合适的模板,前后大概花了一个周末时间。基本内容都有了,想着把这个学期的工作回溯补充进去。我起名叫PermaLab,一方面工作的一大部分是关于多年冻土(Permafrost),所以我们这个团队就是多年冻土的一个研究团队(Lab)。另一个Perma也是Permanent前部分,希望小队伍可以长久壮大,扎根在这些很挑战的领域。这个新网站作为团队整体工作的一个对外口子。后期想着把一些我们工作介绍出来,把一些产生的数据和代码共享出来。

group-website-screenshot-180624

一种简单有效的MODIS LST内插方法

一种简单有效的MODIS LST内插方法

Zhuotong Nan (giscn@msn.com, 南卓铜)

本软件实现了一种新的基于相似性原理的MODIS陆表温度(LST)的插值方法。这种LST数据空间插值方法利用具有相似温度变化特征的已知LST像元集合推算缺失的LST。在青藏高原的案例表明传统的地统计方法基本无法处理大范围连续的数据丢失(比如因为云),而本方法明显优于传统方法,可能较合理的得到缺失LST。此方法尤其适用于大范围山地区域。

This tool implements a new interpolation method for MODIS land surface temperature (LST) following the theory of similarity. It estimates the missing LST pixels by known LST pixel sets which bear similar characteristics of LST variation as the missing pixels. A case study on the Qinghai Tibet plateau has already been carried out, showing its obvious advantages over the traditional geostatistic methods, the latter was unable to do with a large area and temporally continuous data missing situations. This approach is especially good for a study area with a large area and mountainous terrain.

6704d1efb515c7a26d93914d72b14448

fig 1a, with this approach

315bdc690406652281a46f305a2e6697

fig 1b, with Kriging

Continue reading

A document for stream data used in DHSVM

Zhuotong Nan (南卓铜, giscn@msn.com)

Three files related to stream data are required to run DHSVM. One is the stream network file, which include information for each stream segment. The second is the stream mapping file, which contains stream information on a cell by cell basis. The last one is a look up table file specifying the information of each channel class. In addition, a soil depth grid is also related to the stream data.

In this document, I used the following example files.

  • Stream.network.dat: stream network file
  • Stream.map.dat: stream mapping file
  • Stream.class.dat: stream class file
  • Soild: soil depth grid

The first three data files are in text format which can be opened with any text editors. The last is in ESRI ArcGIS Grid format that can be viewed with ArcMap or any GIS with support of this format.

See the 7-page document for details.

image

pdf, 186KB

Workflow of Preparing Stream Data for DHSVM

Workflow of Preparing Stream Data for DHSVM

Zhuotong Nan (南卓铜, giscn@msn.com)

Preparing stream data for DHSVM is very complicated. Many AML scripts as well as Java are involved. Through the example showed below, I want to examine what the preparation really does and what happens behind the scripts. The scripts need ArcGIS workstation, which is not commonly installed. Thus I wrote this article, in the hope that without installation of ArcGIS workstation, you can see clearly the processes and if you want you can re-implement it with other languages.

I created a folder named “highplandpark” on the desktop, whose actual path is c:\users\nzt\desktop\highlandpark. The contents in this folder include,

  • Arcscripts, directory, the aml scripts copied from DHSVM.
  • Programs, directory, the java codes copied from DHSVM
  • Dembuilding_my.asc, file, dem file
  • Mask.asc, file, the mask file for the area of interest

Those files can be found here.

In order to repeat the following steps, ArcGIS Desktop and Workstation, Java Runtime Environment JRE, shall be installed as prerequisites. I used version 10.0 for both ArcGIS Desktop and Workstation and JRE 7. My OS is Windows 7 x64.

image
Generated soil depth grid

Read the 18-page full document, pdf (478KB)

Two attached files

我的2003年工作被IPCC WGI AR4引用

联合国政府间气候变化专家小组(IPCC)第一工作组第4次评估报告是在2007年发布,凭这个报告,IPCC 2007拿了诺贝尔和平奖。该报告引用文献总数达6227篇,其中海外华人文献数目为358篇,大陆作者文献数目88篇,占引用总数的1.41%。其中寒旱所文献13篇,我的地理学报2003年关于西大滩冻土退化的文章也被引用。

BTW,第5次报告应该在2014年发布。

附件是AR4文献引用情况的统计文档,来源于网络,作者未知。

十月份黑河流域中上游考察

本帖文字修改自张凌总结的“黑河流域中上游考察总结”,并补充。

0 考察目的

(1) 了解黑河流域中上游野外观测站点分布位置、站点观测仪器;
(2) 考察黑河流域上游和中游出口水文站;
(3) 考察黑河中游灌溉渠系;
(4) 了解黑河流域分水方案及分水方法;
(5) 了解黑河流域中上游地貌特征;
(6) 了解民勤县生态环境问题。

总共考察6天,2013.10.3-2013.10.8。行程如下:

1. 兰州 -> 西宁 -> 峨堡 -> 阿柔-> 祁连
峨堡、阿柔大寺、阿柔观测点
宿祁连

2. 祁连 -> 冰沟 -> 大冬树垭口 -> 黄藏寺 -> 葫芦沟 ->南山垭口 ->肃南
冰沟径流观测点、冰沟Water试验场、大冬树垭口观测场、黄藏寺黑河交汇处、葫芦沟祁连站
翻走廊南山路差,需要2个半小时。
肃南良友旅游宾馆不错

3. 肃南 -> 高台 -> 正义峡 -> 临泽
高台西路军纪念馆、正义峡水文站

4. 临泽县城 -> 临泽生态站 -> 张掖丹霞 -> 黑水国 -> 张掖
临泽生态站、丹霞地貌、黑水国、张掖甘州市场
荣福宾馆(水务局附近)

5. 张掖 -> 莺落峡 -> 草滩场水利枢纽 -> 遥感站 -> 五星村 -> 张掖
大佛寺、龙首电站、莺落峡水文站

6. 张掖 -> 阿拉善右旗巴丹吉林 -> 雅布赖盐湖 -> 民勤 -> 武威
华信宾馆

7. 武威 -> 雷台 -> 西夏博物馆 -> 天祝 -> 兰州

相关网页:http://blog.sciencenet.cn/blog-922140-734229.html