My WebLink
|
Help
|
About
|
Sign Out
Home
Browse
Search
REP18937
DRMS
>
Back File Migration
>
Report
>
REP18937
Metadata
Thumbnails
Annotations
Entry Properties
Last modified
8/24/2016 11:47:44 PM
Creation date
11/27/2007 2:31:42 AM
Metadata
Fields
Template:
DRMS Permit Index
Permit No
C1980007
IBM Index Class Name
Report
Doc Date
11/1/1997
Doc Name
Historic Record Study Area, 1997 Characterization
Permit Index Doc Type
REVEG MONITORING REPORT
Media Type
D
Archive
No
There are no annotations on this page.
Document management portal powered by Laserfiche WebLink 9 © 1998-2015
Laserfiche.
All rights reserved.
/
28
PDF
Print
Pages to print
Enter page numbers and/or page ranges separated by commas. For example, 1,3,5-12.
After downloading, print the document using a PDF reader (e.g. Adobe Reader).
View images
View plain text
Mathematical evaluation of the relationship between "pre-growing season" precipitation <br />and total vegetation cover and total herbaceous production was undertaken. Using data <br />from the communities of Table 4, both total vegetation cover and total herbaceous <br />production are positively correlated with "pre-growing season" precipitation. While <br />total herbaceous production showed a stronger correlation (r=0.793) than total <br />vegetation cover (r=0.668) to "pre-growing season" precipitation, it should be noted <br />that the correlation coefficient is indicative of the strength of the linear relationship <br />between the correlated factors. Many biologic systems exhibit lineaz relationships only <br />in very limited ranges. With the collection of additional data, it may be determined <br />that the relationships between total vegetation cover, total herbaceous production and <br />"pre-growing season" precipitation may be best described by non-linear equations. <br />To test the strength of the relationships between total vegetation cover, total herbaceous <br />production, and "pre-growing season" precipitation, both lineaz and polynomial <br />(quadratic) equations were developed based on the data from Figure 4. While the <br />equations provided reasonable approximations to the empirical data, none of the <br />equations provided statistically significant regressions. It is postulated that predictive <br />equations may be closely tied to individual vegetation communities, and that the use of <br />three separate and distinct communities may have affected the mathematical <br />relationship. Though the "pre-growing season" precipitation explains a significant <br />proportion of the two parameters, additional factors may have compounding effects on <br />cover and herbaceous production. <br />In future sampling of the historic record vegetation community, the relationship <br />between total vegetation cover, total herbaceous production, and "pre-growing season" <br />precipitation may be further clarified. If the relationships are statistically quantifiable <br />and significant for the historic record vegetation community, quantitative predictive _. <br />values for any growing season may be calculated. These predictive values may lead to <br />significant changes in the manner in which revegetation success is viewed. <br />-12- <br />
The URL can be used to link to this page
Your browser does not support the video tag.