- Separate description kml to csv movie#
- Separate description kml to csv software#
- Separate description kml to csv professional#
Using these tools, we submit that satellite imagery from just four collection sites in Jordan ( Figure 1) illustrates the variety of ecosystems there better than verbose written descriptions. Therefore, our team has developed a simple conversion program, making use of readily available, powerful visualization tools, such as Google Earth, to facilitate data mapping for the natural products community.
Separate description kml to csv professional#
However, it is anticipated that most natural products scientists do not have access to professional GIS resources. Natural products scientists at Research Triangle Institute (RTI) have access to RTI's staff of Geographic Information Systems (GIS) professionals to assist with the geospatial data processing, integration, and mapping. In other words we wanted to show that the samples were not gathered at random in a “sandbox,” but rather, that they were collected strategically across several ecological niches. terrain, precipitation, elevation, soil pH, metals concentrations, and ease of access) and for descriptive purposes, to illustrate pictorially the variety and distinguishing features of the sample points. This was both for planning purposes, to strategize where to collect samples based on the geographic distribution of many variables (e.g. To address this, we began working with experts in Geographic Information Systems (GIS) to develop maps of our collections.
Separate description kml to csv movie#
This became evident when a colleague from the United States, making a joke in reference to the sand storms seen in the movie Lawrence of Arabia, asked if Jordan was “just a big sandbox.” In point of fact, this misconception, that desert environments lack biodiversity, particularly with respect to soil microorganisms, is incorrect ( Fierer and Jackson, 2006). Yet, it seemed that these arguments were lost on many people. We could discuss: the nature preserves across four distinct biogeographic regions ( Al-Eisawi, 1998) the confluence of the flora seen in three continents ( Feinbrun-Dothan, 1986) the steep change in elevation within relatively compact geopolitical borders and, even, features that distinguish it from anywhere else in the world, such as the Dead Sea, being 400 m below sea level, the lowest place on terrestrial earth.
A continual challenge has been to impress upon the scientific community the value of studying ecosystems in this region of the world. Specifically, we have studied the plant ( Alali et al., 2007 Alali et al., 2005 Alali et al., 2008) and microbial ( Oberlies et al., 2008) biodiversity of the Hashemite Kingdom of Jordan (Jordan) for a number of years. Even when we went to great lengths to explain verbally and/or in writing why certain collections were interesting or exciting, particularly from rare, extreme, and/or under investigated ecological niches, the points could have been made better with pictures and/or images. With this axiom in mind, our research team has encountered challenges when describing the strategy behind and the results from our collections of natural product study materials. data for scientists) is much more vibrant and informative than a written description could ever be.
Separate description kml to csv software#
The goals of the present study were to develop simple tools that are tailored for the natural products setting, thereby presenting a means to map such information, particularly via open source software like Google Earth.Īlmost everyone is familiar with the expression-“a picture is worth a thousand words”-the point being that the visualization of something (e.g. With new, free, and easy-to-use geospatial visualization tools, such as Google Earth, mapping and geographic imaging of sampling data are now within the reach of natural products scientists. However, to the uninitiated, these tools are often beyond the financial and/or computational means of the natural product scientist. Geographic Information Systems (GIS) have been used to display, manage, and analyze geographic data, including collection sites for natural products. longitude/latitude coordinates, geography, elevation, and a multitude of other field observations) have provided valuable data to the scientific community (e.g., biodiversity), even if it is tangential to the direct aims of the natural products research, which are often focused on drug discovery and/or chemical ecology. The information gleaned from such collecting trips (e.g.
Scientists engaged in the research of natural products often either conduct field collections themselves or collaborate with partners who do, such as botanists, mycologists, or SCUBA divers.