Analysis of Two Fibre Test Examples Top Example (6B46) The average fibre diameter is 15.8 micron. As can be seen with the histogram, most of the fibres are centred close to the mean diameter. Almost all fibres are between 9 microns and 28 microns, (range of 19 microns). This alpaca has very low variation of fibre diameter, and consequently has a low SD of 3.4 microns, (2/3 of fibres are between 12.4 microns and 19.2 microns). As all fibres are below 30 microns, the Comfort Factor is 100%. The micron profile shows a relatively flat profile indicating stable level of nutrition passing to the fibre follicles. The profile shows the average diameter of the fibre staple starting at almost 17 microns at last shearing (left side of profile), then finishing at about 16 microns when the sample was taken. The results indicate this sample is from a superior animal, capable of producing premium ultrafine fibre.
Example (6Y40) The average fibre diameter is 26.3 microns. The histogram shows high variation of diameter of individual fibres, ranging from 13 microns to 48 microns, giving a range of 35 microns. For this reason the SD is 5.5 microns, (2/3 of the fibres are between 20.8 microns and 31.8 microns). Note that the CV is 20.8%, which is lower than the above alpaca at 21.4%. The reason for this is the difference in fibre diameter. The comfort factor is 82%, meaning 18% of fibres are greater than 30 microns. The fibre from this alpaca would likely have a prickle feel if worn next to the skin. The micron profile shows the level of nutrition falling dramatically about half way through the growing season, before rebounding to almost its initial diameter. This might be a result of worm infestation, dry conditions or ill health followed by a return to lush or healthy conditions. The fibre would likely be tender at the finest point on the profile. This alpaca would be regarded as producing inferior fleece by commercial standards.
Micron Blowout Many growers lose faith in their animals once they receive a test report showing a high fibre diameter result. The fact is, the animal might be capable of producing superfine fleeces, however, it may have been subject to overfeeding. During 2006, Australian Alpaca Fibre Testing conducted over seven thousand alpaca fibre tests. The average micron for these tests was 25.1 microns. A high percentage of these tests were on samples from first or second fleeces. The average range in fibre diameter along the staple was 4.8 microns. This represents how much the fibre changed in diameter over the growing season. This variation is caused mainly by changes in nutritional intake. High nutrition causes the fibre to broaden. Overfeeding high quality hay or grain has often been the cause of much anguish when the fibre test results are revealed. With many of the alpacas we tested, the fibre diameter blew out by more than 10 microns. In one year, an alpaca blew out by a staggering 19.2 microns – starting at 18.1, and finishing with 37.3 microns at the point of shearing. A random selection of 100 test results from 2006 showed about 20% of fleeces to be under 20 microns at one point, but finished with an average fibre diameter of over 26 microns. If these fleeces met H1 grade as set by AAFL, then at under 20 microns they could have been valued at, say, $27 per kilo. The same fleeces would have been valued at possibly $4 per kilo with their eventual micron result. If the fleeces had initially met the Ultrafine bale criteria, they might have enjoyed a price of $60 per kilo. In this scenario, the micron blow-out would have resulted in a drop in price of, say, $54 or almost 90%. Obviously, feeding regimes for pregnant females or developing crias might require high nutrition irrespective of impact on fibre diameter. Furthermore, I’m not suggesting you keep your alpacas just one step away from needing life-support systems to survive. The message is to find the right balance.
Points to remember
Fibre diameter is generally the most important trait for commercial processing. It is also one of the most heritable fibre traits allowing significant genetic gain over generations.
When reading fibre test results, look at the SD rather than the CV.
When purchasing an animal, always ask for the SD. If the vender knows the micron, then they know the SD.
Incorrect sampling technique can have a detrimental affect on the eventual test result.
Seek the advice of a qualified fibre measurement service provider in order to effectively interpret results.
Reading Fibre Test Results
In recent years, the Alpaca industry has made significant progress towards establishing
itself as a key supplier of raw fibre to the global textile and craft markets.
At both the 2006 and 2007 National Alpaca Fibre Seminars held in Australia, presenters
from processing and garment manufacturing firms revealed a growing demand for quality
Alpaca breeders at the seminar were told that although a range of fibre types would
be required for various product ranges, growers needed to focus on ‘key market drivers’.
In other words, growers needed to produce fleeces that exhibited those traits sought
by respective markets in order to reap price premiums.
Objective traits such as average fibre diameter, variation of fibre diameter, incidence
of coarse fibres (comfort factor) and staple length provide clear expectations on
processing performance and eventual yarn/fabric quality. It is for this reason, objective
traits play a key role in sourcing fibre and consequently, the price paid for fleeces.
It should be remembered that visual traits such as colour have some influence on
price paid, however, they are not the subject of this article.
Monitoring objective fibre traits using fibre measurement, therefore, makes a lot
of sense. It allows fleece growers the opportunity to select alpacas that are likely
to produce the more valuable fleeces. More importantly, it also provides an insight
into the genetic potential of breeding stock to produce progeny capable of growing
these premium fleeces.
Fibre testing can be like an ambush for the unwary. There is much misinformation
as to what fibre test results mean and how they should be applied. The following
is a short guide to help dispel some of these fibre testing myths.
Interpreting Test Results
So, now that you have got the results of a fleece test, what does it all mean? The
following is a list of commonly used terms for fibre testing.
Micron: Unit of measurement for describing diameter of fibre. 1,000 microns = one
millimetre. Fibre diameter is the single most important fibre trait with regard to
commercial processing. It is also one of the most heritable fibre traits
Mic Dev: (Micron Deviation) The extent to which a sample deviates from the herd’s
SD: (Standard Deviation) A measurement to show how much a set of individual results
from within a sample vary from the overall sample’s average. One standard deviation
is how far from the average you need to go to capture about two thirds of the sample.
For example, a staple has an average diameter of 20.0 microns with a SD of 5.0 microns.
In this case, about two thirds of the fibres in the staple are between 15.0 and 25.0
microns. The lower the SD, the less variation in fibre diameter. SD is the preferred
measurement for determining fibre diameter variation on individual animals. Alpacas
with low SD generally have a softer handle, greater tensile strength, and less variation
over the fleece area.
CVD: (Coefficient of Variation of Diameter) Is the standard deviation expressed as
a % of the sample’s average. For example, if the average diameter is 20.0 microns
with a SD of 5.0 microns, the CVD is 25.0%. (5/20 x 100)
CF: (Comfort Factor) Percent of fibres in a sample that are equal to or less than
30 microns. Fibres greater than 30 microns are generally responsible for the prickle
sensation when worn next to the skin.
CE: (Coarse Edge) The % of fibres in a sample that are greater than the sample’s
average by 10 microns.
<15%: The percent of fibres in a sample less than 15 microns.
CRV: (Fibre curvature) expressed in degrees/millimetre. Generally, higher curvature
is associated with higher crimp frequency.
SF: Spin Fineness: Calculation using micron and CVD to represent the spinning quality.
Micron Profile: A graph showing the variation of fibre diameter along the staple.
Can be used for analysing the nutritional intake over the growing season.
Histogram: A bar graph depicting the distribution of fibre diameter for the sample.
On the vertical (y) axis of the graph is the micron of the fibre counts. On the horizontal
(x) axis are a series of numbers which represent the frequency of distribution of
those fibres counted.
SL: Staple length expressed in millimetres. Staple is another term for fibre bundle
Max Mic. The broadest point along the staple, expressed in microns.
Min Mic. The finest point along the staple, expressed in microns.
FPFT: (Finest point from the tip) Millimetres from the tip to the finest point in
the staple. An indicator for the ‘point of break’.
MFE: (Mean fibre ends) The average fibre diameter of the fibre ends [tip and base]
expressed in microns.
Hauteur (predicted): The estimated length of fibres after scouring, carding and
combing. As a rule, the two most important properties of wool for processors are
diameter & hauteur.
Example of two sets of results including data, histograms and micron profiles. Analysis
of the results follows below the examples.
Micron Profile showing blow-out of 7 microns over 8 month period.