Watkins D.R.L. Myers D. Xavier H.E. Marciano M.A.

Revisiting single cell analysis in forensic science.

Scientific Reports. 2021; 11: 7054

Probabilistic Genotyping Software: An Overview, Forensic Science.

International: Genetics. 2019; 38: 219-224van Oorschot R.A.H. Szkuta B. Meakin G.E. Kokshoorn B. Goray M.

DNA transfer in forensic science: A review.

Forensic Science International: Genetics. 2019; 38: 140-166Taylor D. Kokshoorn B. Biedermann A.

Evaluation of forensic genetics findings given activity level propositions: A review.

Forensic Science International: Genetics. 2018; 36: 34-49Cook R. Evett I.W. Jackson G. Jones P.J. Lambert J.A.

A hierarchy of propositions: Deciding which level to address in casework.

Science & Justice. 1998; 38: 231-240

The determination of regional and age variations in the rate of desquamation: a comparison of four techniques, The.

Journal of investigative dermatology. 1980; 74: 13-16Rutty G.N. Hopwood A. Tucker A.

The effectiveness of protective clothing in the reduction of potential DNA contamination of the scene of crime.

International Journal of Legal Medicine. 2003; 117: 170-174Port N.J. Bowyer V.L. Graham E.A.M. Batuwangala M.S. Rutty G.N.

How long does it take a static speaking individual to contaminate the immediate environment?.

Forensic Science, Medicine, and Pathology. 2006; 2: 157-163Witt N. Rodger G. Vandesompele J. Benes V. Zumla A. Rook G.A. Huggett J.F.

An assessment of air as a source of DNA contamination encountered when performing PCR.

J Biomol Tech. 2009; 20: 236-240Vandeowoestyne M. Hoofstat D.V. Groote S.D. Thuyne N.V. Haerinck S. Nieuwerburgh F.V. Deforce D.

Sources of DNA Contamination and Decontamination Procedures in the Forensic Laboratory.

Journal of Forensic Research. 2011; s2Taylor D. Abarno D. Rowe E. Rask-Nielsen L.

Observations of DNA transfer within an operational Forensic Biology Laboratory.

Forensic Science International: Genetics. 2016; 23: 33-49Kanokwongnuwut P. Martin B. Kirkbride K.P. Linacre A.

Shedding light on shedders.

Forensic Science International: Genetics. 2018; 36: 20-25Lowe A. Murray C. Whitaker J. Tully G. Gill P.

The propensity of individuals to deposit DNA and secondary transfer of low level DNA from individuals to inert surfaces.

Forensic Science International. 2002; 129: 25-34Taylor D. Bright J.-A. Buckleton J.

The interpretation of single source and mixed DNA profiles.

Forensic Science International: Genetics. 2013; 7: 516-528Taylor D. Bright J.-A. McGovern C. Neville S. Grover D.

Allele frequency database for GlobalFiler(TM) STR loci in Australian and New Zealand populations.

Forensic Science International: Genetics. 2017; 28: e38-e40

R: A language and environment for statistical computing.

R Foundation for Statistical Computing, Vienna, Austria2013Goray M. van Oorschot R.A.H.

Shedder status: Exploring means of determination.

Science & justice: journal of the Forensic Science Society. 2021; 61: 391-400

Cell free DNA as a component of forensic evidence recovered from touched surfaces.

Forensic Science International: Genetics. 2012; 6: 26-30Zhu S. Kato S. Yang J.-H.

Study on transport characteristics of saliva droplets produced by coughing in a calm indoor environment.

Building and Environment. 2006; 41: 1691-1702

The size and the duration of air-carriage of respiratory droplets and droplet-nuclei.

J Hyg (Lond). 1946; 44: 471-479Lacerenza D. Aneli S. Omedei M. Gino S. Pasino S. Berchialla P. Robino C.

A molecular exploration of human DNA/RNA co-extracted from the palmar surface of the hands and fingers, Forensic Science.

International: Genetics. 2016; 22: 44-53Jayaweera M. Perera H. Gunawardana B. Manatunge J.

Transmission of COVID-19 virus by droplets and aerosols: A critical review on the unresolved dichotomy.

Environ Res. 2020; 188 (109819-109819)109819