Forensic Palynology As Classroom Inquiry

Forensic Palynology As Classroom Inquiry

Science Activities, 51:116–128, 2014 Copyright Ó Taylor & Francis Group, LLC ISSN: 0036-8121 print / 1940-1302 online DOI: 10.1080/00368121.2014.931270 Forensic Palynology as Classroom Inquiry Steven L. Babcock ABSTRACT This activity introduces the science of forensic palynology: the use and Sophie Warny of microscopic pollen and spores (also called palynomorphs) to solve criminal Louisiana State University, Baton cases. Plants produce large amounts of pollen or spores during reproductive Rouge, LA cycles. Because of their chemical resistance, small size, and morphology, pollen and spores can be used to link individuals or objects to specific locations where the parent plants grow. Students will use a digital pollen database and Google Earth to link pollen trace evidence to a specific crime scene. The methods 4 1 presented are based on those used in criminal cases and palynological 0 2 r techniques used by forensic scientists. Step-by-step instructions for a hands-on e b m investigation and a case simulation are presented. e t p e S forensics, palynology, pollen, spores KEYWORDS 2 1 8 3 : 1 1 t a ] 0 3 . 7 4 . INTRODUCTION 9 3 . 0 Forensic science in the classroom provides a high-interest setting for student 3 1 [ inquiry. Forensics has roots in many areas of the traditional high school curricu- y b lum, including math, biology, chemistry, physics, and Earth science. Forensic d e fi d scientists apply principles learned in these elds to explore legal issues. The goal a o l of any forensic investigation is to use scientific methodology to find links n w o between people, places, and things. Palynology is the study of organic-walled D microfossils. Two of the most abundant of these microfossils are pollen and spores. Forensic palynology uses “trace” evidence in the form of tiny grains of pollen and spores in legal cases (Warny 2013). Published case histories of foren- sic palynology demonstrate its use in crimes such as rape, homicide, genocide, terrorism, drug dealing, robbery, and others (Milne, Bryant, and Mildenhall 2004). Despite the successes of forensic palynology and its suitability for use in the United States owing to the country’s great regional plant diversity and well- documented pollen studies, there has been limited application of the technique in the United States. It has been suggested that this underutilization is due to Address correspondence to Steven L. Babcock, Louisiana State University, the lack of available information about forensic palynology (Bryant and Jones LSU Laboratory School, 45 Dalrymple 2006). Case in point, many popular high school–level texts in forensics science Drive, Science Department, Baton do not even mention pollen. This is unfortunate because forensic palynology is Rouge, LA 70803, USA. E-mail: [email protected] an ideal match with the STEM classroom, drawing together diverse disciplines from geography, computer science, biology, and mathematics. Moreover, pol- Color versions of one or more of the “ ” figures in the article can be found len is right under our noses and fairly easy to study with conventional light online at www.tandfonline.com/vsca. microscopy. 116 This activity was piloted with 11th and 12th grade Pollen’s usefulness for reconstructing Earth’s past and environmental science students in a diverse urban high its use in forensic investigations arise from its unique school setting as an extension of a unit on ecology. Stu- characteristics. First of all, pollen is small and produced dents were very excited to attempt a forensics investiga- in great numbers. This means pollen can be picked up tion and expressed surprise that it was being offered in by clothing, tools, or other items associated with a an environmental science class. Students worked in crime and transported without a suspect’s knowledge or two-person investigation teams to develop a theory of ability to eliminate it. Because of its role in reproduc- the crime and to create a presentation of their findings. tion, pollen grains have evolved to protect the plant’s The activity incorporates key parts of the Next male gametes until fertilization. As a consequence, a Generation Science Standards (NGSS), including the pollen grain has highly chemically resistant organic following scientific and engineering practices: asking outer wall called the exine that protects it from destruc- questions, developing and using models, planning and tion. These outer walls have morphologies unique to carrying out investigations, analyzing and interpreting the plant’s genus, even species, and can be identified by data, using mathematics and computational thinking, experienced palynologists (Figure 1). For example, constructing explanations, engaging in argument from many gymnosperms (e.g., conifers) produce pollen with evidence, and obtaining, evaluating, and communicat- bilateral air bladders that help during airborne transport ing information. Several NGSS crosscutting concepts of the pollen. Some pollen produced by angiosperms fl 4 are also implicit in this activity: understanding how ( owering plants) has characteristic hook-like structures 1 0 2 patterns of forms and events guide organization and on the exine wall that allows it to become attached to r e classification, explaining causal relationships and the legs of insect pollinators. Finally, just as each geo- b m e mechanisms, recognizing how changes in scale, propor- graphic location has its own ecosystem and unique veg- t p fi fi e tion, or quantity affect outcomes, de ning system etation assembly, it also has a unique pollen pro le S 2 boundaries, and making models. Additionally, the (Adams-Groom 2012). These profiles, or “fingerprints,” 1 8 lesson is divided into the corresponding parts of the are typically arranged as percent distributions of the 3 : 1 1 5E lesson plan model (Bybee 1997). major genera or species of plants represented at a site. t a fi Studying pollen ngerprints found on objects allows ] 0 3 . palynologists to infer where the objects have been. 7 4 fi . Pollen pro les for many locations in the United 9 3 BACKGROUND . States can be easily accessed online. 0 3 1 While most people think of pollen only in terms The National Oceanic and Atmospheric Administra- [ y b of hay-fever allergies and human health, its story is tion’s (NOAA’s) National Climatic Data Center has d e really much more interesting. The term palynomorph archived data of pollen found in lake surface sediments d a o includes both pollen and the spores of ferns or bryo- in many parts of the United States. These data include l n w phytes, as well as other organic-walled microfossils pollen counts along with geospatial coordinates and o D such as dinoflagellates and acritarchs. Forensic palynol- other related information. The database can also be ogy deals mainly with the pollen and spores. In cone- searched geographically by viewing its content in Google and flower-producing plants, pollen carries the male Earth maps. Surface pollen data (indicating current sex cell from one plant to another of its same species. conditions) can be downloaded and processed using Pollination is the precursor to fertilization and ensures spreadsheet programs to create graphical representa- gene flow among plants. Recent scientific studies of tions of pollen profiles. Typically, students of foren- pollen have resulted in major breakthroughs in our sic palynology will be interested in “P15” data that understanding of Earth’s vegetation history. For exam- show the top 15 most common pollen genera recov- ple, using fossilized palynomorphs recovered from sed- ered at a location represented as a percent distribu- iment cores off the coast of Antarctica, geologists have tion of abundance. These percent distributions, in been able to reconstruct the continent’s climate mil- turn, can be shown in a graphical format such as a lions of years ago (Warny et al. 2009). Similarly, surface pie chart to create a visual impression of a location’s pollen has been used in a variety of criminal investiga- pollen fingerprint (Figure 2). tions ranging from drug trafficking to war crimes Adams-Groom (2012) describes how palynological (Milne, Bryant, and Mildenhall 2004). analysis can be used in a variety of types of 117 Forensic Palynology FIGURE 1 “Every contact leaves a trace.” —Edmond Locard. Forensic palynologists collect and identify pollen and spores from a vari- 4 ety of sources. The palynomorphs can be organized into a palynological spectrum or fingerprint that correlates to a specific site. 100 1 £ 0 pollen photomicrographs (top to bottom) show Abies balsamea, Pinus banksiana, and Quercus alba. Photomicrographs of specimens 2 r from the LSU CENEX pollen collection taken by S. Babcock. e b m e t p e investigation: relating a suspect or item to a crime scene presents a simulation based on actual events wherein S 2 or victim, estimating the seasonality of time of death or pollen was used in a forensic investigation in the 1 8 exposure, narrowing search areas for graves or victims, United States. Interested teachers can access a media 3 : 1 1 and tracing items to geographic source. This activity account of this case online at http://usatoday30. t a ] 0 3 . 7 4 . 9 3 . 0 3 1 [ y b d e d a o l n w o D FIGURE 2 A pollen fingerprint. The table at the left shows a raw count distribution of pollen genera collected in a sample. The chart at the right shows the percent distribution of organic matter other than the 5–150-mm fraction that includes pollen. Tables and charts like these can be used to establish a link between two people, items, or places. S. L. Babcock and S. Warny 118 usatoday.com/news/nation/2005-12-02-bodies-found_x. students the opportunity to observe some features of htm. In the activity, students will first review limited fic- pollen morphology.

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