Hair Analysis of Mammals of Brazilian Wildlife for Forensic Purposes

Wildlife trafficking is classified as the fourth largest illegal commerce in the world. Taxonomic identification of wildlife is an ordinary process for forensics experts. The aim of this study was to analyze animal’s hair from Brazilian’s wildlife through microscopic and compare morphology of bristle among species analyzed. Hair samples of nine species were analyzed. Glass slides were analyzed through optical microscopy and following measurements were obtained: total length, medulla diameter, overall diameter and overall ratio diameter of the medulla’s diameter. The images obtained at identification of animals through the morphology of hair and the statistics analysis corroborates in favor for the validation of the technique.


Introduction
Brazil is a country of great importance for global biodiversity; there are 658 mammalian species whereas approximately 10% are considered as endangered.
The loss of biodiversity is one of the greatest problems facing society today [1].
Due to major environmental disasters and a decrease in the number of species, this environmental issue has been highlighted in the scientific community, drawing the attention of the Public Power and the community about environmental protection.Approximately 82 species of mammals are in danger of extinction in Brazil [2] [3].
Wildlife trafficking is classified as the fourth biggest illegal commerce, behind firearms, drugs and people trafficking [1].While the number of species in extinction increases, the effect is adverse: instead of reducing the traffic, the demand for these species has intensified due to its rarity.This has consequently increased the potential gain with its illegal practice [2].Within Brazil's legislation, crimes against the environment belong to the Law on Environmental Crimes (Law 9605/98), this is a major advance among constitutional standards, turning Brazil into one of the most advanced countries regarding standards applied to environmental protection.However, great efforts are still needed to ensure that the sanctions are harshly applied [4].
Veterinary Forensic Medicine was created with the goal of combining knowledge of veterinary medicine with the law when assisting in environmental issues such as wildlife trafficking and animal abuse.Hence, this advances knowledge and skills in wildlife crime investigations, thereby sustaining the evidential value of evidence such as animal hairs and improving case investigations.Because of these benefits, the need for training further professionals in the area was seen [5] [6] [7].
The taxonomic identification of the wild fauna is an ordinary activity for the forensics expert in the area of veterinary medicine [8] [9].The techniques currently available include the use of photodocumentation, zoobiology, forensic genetics and also identification through hair analysis.In addition to the knowledge of trichological information, the geographical distribution of the species should be taken into account for a more accurate identification.Identification is not always easy, considering that the samples found may be insufficient for certain types of tests [6] [10] [11].With the investment in new techniques of species identification and the development of studies in the area of taxonomy, the number of identifications has increased [12] [13].
Hair identification has been reported by different techniques along two centuries, nowadays it is also used to the traces analyze crime scene's collected genetic samples and give other precious information like the presence of toxic agents, parasites, diseases and particular details from the crime scene [14] [15] [16] [17].
However morphologic and morph metric characteristics' examination based on microscopy, which may enable the hair analyst to identify hair as from animal origin [18], to characterize the hair to a particular species [19] [20], and to conduct comparative examinations [12].
The aim of this study is to outline the key features of animal hair retrieved from nine different species of Brazilian wild mammals that are commonly trafficked.This study will aid the identification of such species in wildlife crime investigations in Brazil and countries where products from these species are trafficked.

Methods
Hair samples of nine animals from Brazilian fauna species were seized by the Environmental Military Police in illegal conditions, e.g.animal trafficking, smuggling, physical abuse among others mistreatments and designated to Laboratory of Forensic Veterinary Pathology of FMVZ-UNESP/Botucatu and Center of Medicine and Research of Wild Animals-CEMPAS during six months.This study was approved by Ethical Committee of Animal Use (CEUA-protocol 86/2015) and had authorization from SISBIO/IBAMA n˚ 49607-2.
Hairs (20 -30) were obtained from each animal using tweezers and pulled out from the region of the intersection of the median line with the waistline.Each sample was processed by two way using glass microscopic slides for medulla analysis.
Initially, the hairs with root bulb and tip, were separated from the others and washed with commercial ethyl alcohol and dried upon a paper towel.
The preparation for medulla analysis could be set up by two manners.Put on the whole hair between two glass microscopic slides and to attach the ends with adhesive tape.In addition, one layer of resin may be applied on glass microscopic slides and put on the whole length of the hair, an additional cover glass microscope slide was placed on top and then applied force with fingers.
If it is a medulla sample from pigmented hair, it should be in a whitening mixture composed of hydrogen peroxide and decolorizing powder (30% for 80 minutes).The exposure time to the hydrogen peroxide varied depending on the thickness and size of the hair samples.The hairs were then mounted on a microscope slide and to avoid loss, secured using a small amount of adhesive tape at each end.The glass slides were labeled with species identification and stored in a microscope slide box [11].
Each hair was observed using a computerized image analyzer Axio Vision Rel 4.8, Carl Zeiss  , German, high powered microscope at ×100, ×200 and ×400 magnification, and photographs taken for comparison using the software Image J, SciJava  , the following measurements were obtained (Figure 1) medulla

Results
The hair samples were analyzed and each species specified after evaluated regarding their extinction risk according to IUCN Red List (Table 1).Figures 2-14 show images of the hairs for both the internal features and scale impressions.
Each species sample was measured according to Table 2 showing the parameters: hair length, medulla diameter, and overall hair diameter and medulla/overall               The descriptive statistics analysis of the overall length of the hairs between species had an average of 3.2 ± 1.79 mm and a non-parametric distribution, also on Wilcoxon analysis statistics significance was obtained (P < 0.05).Other remaining parameters have been non-parametric distribution and the Wilcoxon test for comparison between each specie covering all others measurements (medulla diameter, overall hair diameter, ratio overall diameter/medulla) statistics significance was obtained (P < 0.05).

Discussion and Conclusion
According to these analysis results, it is possible to infer that there is a difference between the measurements made in the hair samples of different species.This is exhibited by statistics analysis from the comparison among each species measurements.Besides the perceptible divergence of values, it is possible to highlight a great difference at the morphology of the hairs [11] [13] [19].
The photographed images used for measurement are clear and the measurements were easily performed, it is possible to note the distinction between the hairs.The technique reported in this study is simple, easy and cheap and can contribute effectively to several sectors, purposing the preservation of the national fauna and veterinary practice in the forensic area [6] [18] [20].
The preparation of the material began with the retrieval of hairs of the species to be analyzed.Correctly, multiples samples from more than one animal of each species are required to identify intra and inter-variation.To reduce contamination, a dedicated area reserved for this particular research was used, with the use of lab coat and personal protective equipment (PPE).In order to avoid sample mix-up, each species was analyzed individually and separately from the others.
The labeling and packaging of the samples are important for the adequate preservation of the chain of custody and integrity of the sample; hairs were packaged in paper envelopes inserted in plastic bags of adequate size for each type of hair [2] [15].
The comparison of the morphology of the hairs could be a trial method and resulted in another examination to confirm the species, although genetics is the "gold standard" for the identification, it is a complementary technique that helps to direct the analysis and to increase the sensitivity of the expert report [16] [17].
Futures works are required to quantify the variation that may be present in hairs from different body areas of these species and in different individuals from the same species.This will enable the interpretation of this analysis to be more accurate for the law courts.Further hair characteristics should be explored for their ability to differentiate between these species and closely related ones for greater discrimination [1] [5] [7] [11].
The images obtained and the quantitative measurements contribute to the identification of these previously undocumented species through the morpholo-gy of the hairs and the statistics analysis corroborates in favor of validating the technique.This study ultimately aims to aid the identification of animals in a simpler, faster and effective way to benefit the daily analysis of the practitioners working in veterinary forensics.This study contributes to the ongoing research for the preservation of threatened Brazilian's fauna.

Table 1 .
Classification about the risk of extinction and population of each species sample hair.
[2]Sample of a according to IUCN Red List[2].

Table 2 .
Complete data from each animal/species measured from the software ImageJ.
328699 Open Journal of Animal Sciences