Data in Brief 10 (2017) 63–68 Contents lists available at ScienceDirect Data in Brief journal homepage: www.elsevier.com/locate/dib Data Article A systematic databasing of diatoms from different geographical localities and sites of Haryana for advancing validation of forensic diatomology Ekta Saini a, V.P. Khanagwal b, Rajvinder Singh a,n a Department of Genetics, M.D. University, Rohtak 124001, Haryana, India b Department of Forensic Medicine, Pt. B.D.S. University of Health Sciences, Rohtak 124001, Haryana, India article info abstract Article history: Verdict on tracing exact place of drowning is a part of medico-legal Received 29 September 2016 investigation. This question often stands when circumstances remain Received in revised form unclear about true drowning place. Usually, when a dead body rises 21 October 2016 from the bottom of drowning site, it will appear near to the point Accepted 17 November 2016 where it had actually disappeared but rapid current may carry a body Available online 24 November 2016 to real distance from the exact place of death before any major Keywords: obstruction. Forensic methodology has suggested qualitative as well as Drowning quantitative comparison of diatoms recovered in dead body and Diatoms reference water samples to corroborate drowning as cause of death Water body and locating precise place of drowning. Collection of wrong reference Microscopy water samples from drowning site can also hamper the investigation process. Since, the distributions of different genera in certain extents relate particular water where the death due to drowning might have taken place; therefore, the present attempt was made to understand diatom distribution in five water bodies of Haryana with reference to diatom growth factors. This research data represents diatomological profiles of selected sites for possible application of forensic diatomol- ogy. Both, the light and scanning electron microscopy identified dia- toms.Itisenvisionedthatthisdatareportisinformativeenoughfor the experts to plan future strategy for investigating mysteries asso- ciating place of drowning. & 2017 The Authors. Published by Elsevier Inc. This is an open access articleundertheCCBYlicense (http://creativecommons.org/licenses/by/4.0/). n Corresponding author. E-mail address: [email protected] (R. Singh). http://dx.doi.org/10.1016/j.dib.2016.11.072 2352-3409/& 2017 The Authors. Published by Elsevier Inc. This is an open access article under the CC BY license (http://creativecommons.org/licenses/by/4.0/). 64 E. Saini et al. / Data in Brief 10 (2017) 63–68 Specifications Table Subject area Forensic Science More specific Forensic Diatomology subject area Type of data Figure and Tables How data was Identification of diatoms was made with light and scanning electron micro- acquired copy (Leo 435 VP) Data format Analyzed Experimental Water samples collected in different seasons were treated with acid digestion factors method, and later centrifuged to extract diatoms Experimental The distribution patters of diatoms in selected water bodies were evaluated features with context to seasonal and geographical changes Data source Haryana (29.0588°N, 76.0856°E) a northern state of India location Data accessibility Data is available with this article Value of the data Little is known about the diatomological mapping of fresh water bodies of Haryana. Diatomological information produced here provides a baseline data which can aid future efforts in investigation of the diatom diversity present in Haryana. Data provide details of the strategy for the forensic and medicolegal experts to trace the infor- mative pathway dealing with questioned drowning place. These data are also useful for researchers working in the field of archaeology, botany and envir- onment sciences for water quality assessment and environmental change. 1. Data Data provided in this article revealed diversity of diatom depending upon properties of habitat water and prevailing climatic conditions of water bodies from varied localities of Haryana (Supple- mentary Fig. 1). 2. Experimental design, materials and methods Water samples were collected from Morni Hills Tikkar Taal Lake, Panchkula; Tilyar Lake, Rohtak; Jawaharlal Nehru Canal, Rohtak; Kharawad Village Well, Rohtak; and Suraj Kund, Far- idabad. The first sampling was conducted during winter season in the month of December 2013. The schedule was continued following spring (March), summer (June) and autumn (September) seasons in 2014. Changes in the physical characteristics of these water bodies have been depicted in Table 1. Temperature and pH of water were also recorded at the time of sampling (Tables 2 and 3). Earlier mentioned protocols [1,2] were followed right from the extraction up to qualitative and quantitative analysis of diatoms. Diatoms were identified on the basis descriptions available in the literature [3]. Distribution patterns of diatoms have been displayed in Table 4. Photomicrographs of some diatoms can also been viewed in Fig. 2 (Supplementary) and Fig. 1. E. Saini et al. / Data in Brief 10 (2017) 63–68 65 Table 1 Physical characteristics of studied water bodies. Name of water body Nature of Geography and Approximate depth water body area (in m) Morni Hills Tikkar Natural Lake Himalaya foothill 10.0 Taal Lake, (0.25 km2) Panchkula Tilyar Lake, Rohtak Lake Plain (Area 5.0 0.53 km2) Jawaharlal Nehru Canal Plain (Area N.A.) 8.0 canal, Rohtak Kharawad Village Well Plain (Area N.A.) 3.0 Well, Rohtak Suraj Kund, Pond Aravli foothill 4.0 Faridabad (0.22 km2) Table 2 Temperature at the time of sample collection. Water body Water temperature at the time of sample collection Winter (December Spring (March Summer (June Autumn (September 2013) (°C) 2014) (°C) 2014) (°C) 2014) (°C) Morni Hills Tikkar Taal Lake, 10 23 38 27 Panchkula Tilyar Lake, Rohtak 21 25 42 39 Jawaharlal Nehru canal, 21 25 42 39 Rohtak Kharawad Village Well, 19 24 43 32 Rohtak Suraj Kund, Faridabad 24 28 43 41 Table 3 The pH values of the water samples in different seasons. Water body Winter (December Spring (March Summer (June Autumn (September 2013) 2014) 2014) 2014) Morni Hills Tikker Tal Lake, 6.35 7.14 7.58 7.67 Panchkula Tilyar Lake, Rohtak 9.56 8.00 9.74 8.82 Jawaharlal Nehru canal, Rohtak 7.67 7.62 7.77 7.83 Kharawad village well, Rohtak 7.97 8.14 7.78 7.89 Suraj Kund, Faridabad 7.81 8.01 8.26 8.12 66 E. Saini et al. / Data in Brief 10 (2017) 63–68 Fig. 1. Photomicrographs of diatoms through Scanning Electron Microscope. E. Saini et al. / Data in Brief 10 (2017) 63–68 67 Table 4 Overall diatoms distribution in five water bodies. Diatom Water Body Tikkar Tilyar Jawahar Kharawad Surujkund, Taal Lake, Lake, Lal Well, Faridabad Panchkula Rohtak Nehru Rohtak Canal, Rohtak Achnanthes þÀÀÀ Amphora ÀÀþÀÀ Aulacoseira þÀÀÀ Cocconeis þþÀÀ Cyclotella þþþþþ Cymatopleura ÀÀþÀÀ Cymbella þþþþ Diploneis ÀÀþÀÀ Diatoma þþÀÀ Epithemia þþÀÀ Eunotia þþÀÀ Fragillaria ÀÀÀÀþ Gomphonema þÀÀþ Hantzschia þÀÀÀ Gyrosigma þþÀÀ Melosira þþÀÀ Navicula þþþþþ Nitzschia þþþþþ Pinnularia þþÀÀ Pseudostaurosira þÀÀÀ Stauroneis þÀÀÀ Rhoicosphenia þþÀÀ Staurosirella ÀÀþÀÀ Surirella ÀÀÀÀþ Synedra þþÀÀ Symbol description:(þ Present; À Absent). Acknowledgements The authors express deepest regard to Electron Microscope Facility at Sophisticated Analytical Instrumentation Facility (DST) Department of Anatomy, All India Institute of Medical Sciences, New Delhi for providing custom based facility to grab photomicrographs of few diatoms. Transparency document. Supplementary material Transparency data associated with this article can be found in the online version at http://dx.doi. org/10.1016/j.dib.2016.11.072. Appendix A. Supplementary material Supplementary data associated with this article can be found in the online version at http://dx.doi. org/10.1016/j.dib.2016.11.072. 68 E. Saini et al. / Data in Brief 10 (2017) 63–68 References [1] M.K. Thakar, R. Singh, Diatomological mapping of water bodies for the diagnosis of drowning cases, J. Forensic Legal Med. 17 (2010) 18–25. [2] R. Singh, Deepa, R. Kaur, Diatomological mapping of water bodies – a future perspective, J. Forensic Legal Med. 20 (2013) 622–625. [3] B. Hartley, H.G. Barber, J.R. Carter, An Atlas of British Diatoms, Biopress Ltd., Bristol, United Kingdom, 1996..
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