Anatomical characteristics of fossil wood collected from the Manchar Formation (Miocene), Thano Bula Khan, Sindh, Pakistan

Noorulain Soomro; Jamal Uddin Mangi; Mahjabeen Panhwer; Ghulam Hussain Jatoi; Sajjad Ali Khuhro; Qamaruddin Khokhar; Shabab Ali Khan; Ali Nawaz Mengal; Nasirudin Shaikh

doi:10.3897/italianbotanist.11.60344

Research Article

Anatomical characteristics of fossil wood collected from the Manchar Formation (Miocene), Thano Bula Khan, Sindh, Pakistan

Noorulain Soomro^‡, Jamal Uddin Mangi^‡, Mahjabeen Panhwer^‡, Ghulam Hussain Jatoi^§, Sajjad Ali Khuhro^§, Qamaruddin Khokhar^‡, Shabab Ali Khan^‡, Ali Nawaz Mengal^§, Nasirudin Shaikh^|

‡ University of Sindh, Jamshoro, Pakistan

§ Mir Chakar Khan Rind University, Sibi, Pakistan

| Government Collage University, Hyderabad, Pakistan

Corresponding author: Ghulam Hussain Jatoi ( jatoighulamhussain@hotmail.com )

Academic editor: Lorenzo Peruzzi

This is an open access article distributed under the terms of the Creative Commons Attribution License (CC BY 4.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.

Citation: Soomro N, Mangi JU, Panhwer M, Jatoi GH, Khuhro SA, Khokhar Q, Khan SA, Mengal AN, Shaikh N (2021) Anatomical characteristics of fossil wood collected from the Manchar Formation (Miocene), Thano Bula Khan, Sindh, Pakistan. Italian Botanist 11: 1-8. https://doi.org/10.3897/italianbotanist.11.60344

Abstract

The characterization of petrified wood provides valuable information about paleoclimatology and geological history and helps to reconstruct the past forest flora of different parts of the earth. The present study was undertaken to evaluate the anatomical characteristics of fossil wood of the Miocene age collected from the Manchar Formation exposed at Thano Bula Khan, Sindh, Pakistan. In order to carry out a detailed anatomical investigation, three-dimensional sections were prepared using a petrotome. The microscopic analysis allowed us to study vessel size and arrangement, wood parenchyma, fibers, and xylem rays. Based on the comparison between recent and fossil wood, we concluded that the investigated characters are comparable with those of the genus Atalantia Corrêa of the Rutaceae family. Therefore, it was named as Atalantioxylon thanobolensis sp. nov. with reference to the location of Thano Bula Khan from which the fossil wood was collected.

Keywords

Atalantioxylon thanobolensis sp. nov. Rutaceae, fossil wood, Manchar Formation, Pakistan

Introduction

The anatomical study of fossil wood has long been proven as an effective instrument for determining the flora of the paleo-forest. The anatomical study of fossil wood provides useful features for the taxonomy of fossil plant and represents an important tool in determining the flora of paleo-forests. Moreover, xylotomical data can also be useful for paleo-ecological reconstruction. As suggested by Visscher and Jagels (2003), the identification of fossil wood gives valuable information on paleo-ecosystems and paleo-environments in the absence of reproductive or vegetative plant organs. Recently, Acarca et al. (2018) evaluated and identified the silicified wood belonging to Miocene forests. Based on paleobotanical studies, a variety of dicot wood flora was described by Akkemik et al. (2018) from the Miocene age in Ankara Turkey, confirming the paleoclimatic conditions (a xeric-low mountainous forest prevailing under a semi-dry climate). Anatomical studies of dicotyledonous fossil wood species from Sindh region of Pakistan were reported by various authors, such as Khan and Rehmatullah (1968), Rehmatullah (1971), Khan and Rajput (1976), Bhutto et al. (1993), Ahmed et al. (2007), Shar et al. (2010), Soomro et al. (2016) and Mangi et al. (2020). Rajput and Khan (1984) identified gymnosperm and monocot wood from the Sindh province. De Franceschi et al. (2008) also found some dicotyledonous fossil wood in the lower portions of the Chitarwal Formation, Sulaiman Range, eastern Baluchistan, while fossil woods from the province of Punjab (Pakistan) have also been documented by Soomro et al. (2016a, b; 2017). The current work aims to characterize the fossil wood obtained from the Manchar Formation of the Miocene Age at Thano Bula Khan, Sindh (Pakistan).

Material and methods

The fossil wood sample of the Manchar Formation (TB35) was taken from Thano Bula Khan (25°24'35"N, 67°46'27"E, district of Jamshoro, Sindh, Pakistan). The size of the sample was 20 cm in length and 4.5 cm in width. The colour of the fossil wood was noted to determine the depositional material. Using the ground thin-section method described by Opała-Owczarek et al. (2020), nine thin sections were prepared (cross, tangential and radial planes). All the samples were carefully observed under the microscope and all their anatomical features were noted. Photography was carried out with a digital microscope available at the Paleobotany Laboratory, Institute of Plant Sciences, University of Sindh, Jamshoro.

Figure 1.

A map of Sindh (Pakistan), showing the area of Thano Bula Khan from where the fossil wood was collected B geological map showing the Manchar Formation exposed in the study area.

Results

Family: Rutaceae

Genus: Atalantia Corrêa

Atalantioxylon thanobolensis sp. nov.

Diagnosis

Wood diffuse porous, growth ring present, demarcated by a line of terminal parenchyma, vessels small to medium in size, tangential diameter 45–134 µm, radial diameter 67–180 µm, solitary and in radial multiples of 2–5 evenly distributed over 24–30 mm². Vessel members 150–400 µm long with simple oblique perforation. Intervessel pit pairs about 3–5µm in diameter, bordered alternate, circular to oval in shape. Parenchyma terminal, paratracheal parenchyma sparse. Xylem rays 1–3 (mostly 2) seriate 8–34 cells, 80–550 µm in height, distributed over 5–7 mm². Ray tissue homogeneous, with only procumbent cells. Fibers moderately thick-walled with lumen 15–20 µm in diameter, polygonal in cross-section, non-septate, 450–660 µm long.

Holotype. The specimen was given the name “TB 35” (holotype shown in Fig. 2). It consists of silicified wood collected 10 km south-west of Thano Bula Khan, by the first author.

Figure 2.

Atalantioxylon thanobolensis sp. nov. Plate 1-01: Macrograph of the fossil wood TB 35. Plate 1-02: Cross section showing general distribution of vessels and parenchyma (×40). Plate 1-03: Cross section showing general distribution of vessels and parenchyma. (×100). Plate 1-04: Cross section showing details of vessels and parenchyma. (×200).

Horizon

Manchar Formation. Age: Pliocene to Upper Miocene.

Morphological description

The present fossil was anatomically identified from a well-preserved secondary wood sample measuring 20 cm in length and 4.5 cm in width. The color of the fossilized wood is light brown with shine indicating deposition of silicates.

Anatomical analysis

Cross section. Wood diffuse porous, growth ring present, demarcated by a line of terminal parenchyma vessels small to medium in size, solitary and mostly in radial multiples of 2–5, mostly evenly distributed but in some places showing crowding at the beginning of the growth ring, circular to oval when solitary, sometimes elliptical due to pressure during fossilization. Tylosis present, parenchyma paratracheal, terminal, and apotracheal; the latter diffuse, while paratracheal parenchyma is sparse, present as few cells around some of the vessels; terminal parenchyma forms 2–3 seriate continuous lines demarcating the growth rings; diffuse parenchyma very sparse, difficult to locate in cross section, fibers thick-walled and non-septate (Fig. 2).

Tangential longitudinal section

Vessels evenly distributed, 170–390 µm long with oblique ends and 73–273 µm wide. Perforation simple intervessel pit pairs about 3–6 µm diameter, bordered alternate circular to oval in shape. Xylem rays small to medium 1–3 (mostly 2) seriate 5–7 mm², 8–34 cells, 80 -550 µm in height, separated by rows of fibers. Ray cells polygonal in tangential section often with dark content ray tissue, homogenous made up of procumbent cells; fibers elongated, non-septate, 15–20 µm in diameter, 450–630 µm in length (Fig. 3).

Figure 3.

Atalantioxylon thanobolensis sp. nov. Plate 2-05 Tangential section showing general distribution of xylem rays and fibers (×40). Plate 2-06 Tangential section showing general distribution of xylem rays and fibers (×100). Plate 2-07 Tangential section showing details of xylem rays (×400). Plate 2-08 Tangential section showing general distribution of xylem rays and fibers (×200).

Radial longitudinal section

Vessel segments elongated with oblique end, length of the vessel members, 175–395 µm, width 84–275 µm, vessel walls 10–12 µm thick. Intervessel pit pairs about 4–6 µm in diameter, bordered alternate, circular to oval in shape. Parenchyma cells attached to the vessels 20–25 µm in diameter and 45–60 µm in length. Xylem ray cells 8–34, 80–556 µm long (Fig. 4).

Figure 4.

Atalantioxylon thanobolensis sp. nov. Plate 3-09 Radial longitudinal section showing arrangement of fibers (×40). Plate 3-10 Radial longitudinal section showing arrangement of fibers (×40). Plate 3-11 Radial longitudinal section showing vessel end-walls and pits (×200). Plate 3-12 Radial longitudinal section showing pits on wall of vessels (×100).

Discussion

Comparison with modern wood

The principal anatomical characters of the petrified wood samples are: small to medium sized vessels, thin bands of terminal parenchyma along with scanty and diffuse paratracheal parenchyma; 1–3 (mostly 2) seriate, homogeneous xylem rays and moderately thick-wall, non-septate fibers strongly indicate the affinity of this fossil wood with the Rutaceae (Metcalfe and Chalk 1950; Stoel and Borman 2008). A detailed anatomical study of various genera of this family revealed a close resemblance of the studied fossil wood with the modern woods of Atalantia Corrêa. A comparison was made with the wood of Atalantia monophylla DC., Atalantia. missionis Oliv., and Limonia acidissima L. The fossil wood under consideration resembles very closely the woods of both these species in all the anatomical characters, such as distribution of vessels, vessel shape and size, parenchyma arrangement, 1–3 seriate, homogeneous xylem rays, and non-septate fibers. The only difference observed between the fossil wood and the modern wood of the fore-mentioned species is the presence of crystalliferous apotracheal parenchyma in the modern wood while it is absent in the fossil wood. Given the resemblance of the fossil wood with the wood of both Atalantia and Limonia, we proposed a new genus Atalantioxylon.

The genus Atalantia is limited to the Indian subcontinent where it is present with four species and two varieties. The infra-generic classification and the species limits of the genus are, however, not well established due to the presence of intermediate forms. Two species, A. monophylla (L.) DC. and A. racemosa Wight & Arn. are extensively distributed, while the third species, A. wightii Yu.Tanaka is endemic to Pakistan (Rameshkumar et al. 2020).

Comparison with fossil wood

Chitalley and Shallon (1962) described a fossil wood from the Deccan near Nagpur; they placed their fossil wood in the family Rutaceae but from its photographs and text figures it does not appear to belong to this family. It also differs markedly from the fossil wood under investigation in the absence of terminal parenchyma and in having two types of xylem rays, short and long, made up of both heterogeneous procumbent cells and erect cell. The fossil wood of Atalantioxylon indicum from Madhya Pradesh in India was the first authentic record of a member of the Rutaceae in fossil state (Lakhanpal et al. 1978). The differences observed between the fossil wood under investigation and the previously reported fossil wood from India regard the size of vessels and slightly dissimilar parenchyma cells (Table 1). Hence, the studied fossil wood is assigned a new species name, viz. Atalantioxylon thanobolensis sp. nov.

Table 1.

Download as

CSV

XLSX

Comparison of the new species with Atalantioxylon indicum Lakhanpal.

Species	Wood	Vessels	Wood Parenchyma	Xylem	Fibres
Atalantioxylon indicum Lakhanpal	Diffuse porous	Vessels medium to large in size, up to 350 µm	Axial parenchyma absent or extremely rare, paratracheal parenchyma scanty, forming few cells around the vessel	Ray width 1 to 3 cells; all ray cells procumbent, 4–12 mm	Non-septate
Atalantioxylon thanobolensis sp. nov.	Diffuse porous	Vessels small to medium in size; tangential diameter 45–134 µm; radial diameter 67–180 µm; solitary and in radial multiples of 2–5, evenly distributed over 24–30 mm²	Parenchyma paratracheal, terminal and apotracheal; apotracheal diffuse; paratracheal sparse, present as few cells around some of the vessels; terminal parenchyma forms 2–3 seriate continuous lines demarcating the growth ring	Xylem rays fine to medium 1–3 (mostly 2) seriate, over 5–7 mm²; 8–34 cells 80 -550 µm long separated by rows of fibers. Rays cells polygonal in tangential section often with dark content; ray tissue homogeneous made up of procumbent cells	Non-septate

Table 2.

Download as

CSV

XLSX

Geographical and stratigraphical data of fossils related to the genus Atalantioxylon.

Species	Reference	Locality	Geological age
Atalantioxylon indicum Lakhanpal, Prakash & Bande	Lakhanpal et al. (1978)	Mandla, District, Madhya Pradesh, India	Paleocene
Atalantioxylon thanobolensis sp. nov.	This paper	Thano Bula Khan, Pakistan	Miocene

Conclusion

A new species, Atalantioxylon thanobolensis is described from Sindh, Pakistan. The presence of other Rutaceae fossil species of Atalantioxylon in the subcontinent and their resemblance with the actual genus Atalantia suggest that a tropical climate existed in the past in the sub-continent.

References

Acarca Bayam NN, Akkemik Ü, Poole I, Akarsu F (2018) Further contributions to the early Miocene forest vegetation of the Galatian Volcanic Province, Turkey. Palaeontologia Electronica 21.3.40A: 1–42. https://doi.org/10.26879/816

Ahmed B, Rajput M, Soomro N (2007) Anogeissoxylon rehmanense sp. nov., a new fossil species of the family Combretaceae from Rehman Dhoro, District Jamshoro, Sindh, Pakistan. Pakistan Journal of Botany 39(7): 2337–2344.

Akkemik Ü, Atıcı G, Poole I, Çobankaya M (2018) Three new silicified woods from a newly discovered earliest Miocene forest site in the Haymana Basin (Ankara, Turkey). Review of Palaeobotany and Palynology 254: 49–64. https://doi.org/10.1016/j.revpalbo.2018.04.012

Bhutto I, Ahmed B, Arain C, Khan K (1993) Lagarstromiaxylon ranikotensis sp. nov. A new species of Lythraceae from the Tertiary sequences of Sindh, Pakistan. Sindh University Research Journal (Science Series) 22: 25–32.

Chitaley SD, Shallom LJ (1962) A fossil wood of Rutaceae from the Deccan Intertrappean beds of India. Proceedings of Rajasthan Academic Science 9(2): 31–35.

De Franceschi D, Hoorn C, Antoine P-O, Cheema IU, Flynn LJ, Lindsay EH, Marivaux L, Métais G, Rajpar AR, Welcomme J-L (2008) Floral data from the mid-Cenozoic of central Pakistan. Review of Palaeobotany and Palynology 150(1–4): 115–129. https://doi.org/10.1016/j.revpalbo.2008.01.011

Khan K, Rajput M (1976) Laurinoxylon rehmanense sp. nov. A new species of fossil dicot. Wood from Tertiary rocks of Sindh, Pakistan. Sindh University Research Journal (Science Series) 9: 5–13.

Khan K, Rehmatullah C (1968) Sapindoxylon petaroensis sp. nov. A new species of dicot wood from the late Tertiary deposits of Sindh. Sindh University Research Journal (Science Series) 3: 137–142.

Lakhanpal RN, Prakash U, Bande MB (1978) Fossil dicotyledonous woods from the Deccan Intertrappean beds of Mandla District in Madhya Pradesh. The Palaeobotanist 25: 190–204.

Metcalfe C, Chalk L (1950) Anatomy of the dicotyledons (Vol. II). Clarendon Press, Oxford, 20 pp.

Mangi J, Khan SA, Soomro N, Naz H, Panhwer M (2020) Wood of Burseroxylon fossil from Bara formation of Rani Kot Fort area, district Jamshoro Sindh, Pakistan. Pakistan Journal of Agriculture, Agricultural Engineering and Veterinary Sciences 36(1): 1–7. https://doi.org/10.47432/2020.36.1.1

Opała-Owczarek M, Owczarek P, Łupikasza E, Boudreau S, Migała K (2020) Influence of climatic conditions on growth rings of Salix uva-ursi Pursh from the shore of Hudson Bay, Subarctic Canada. Arctic, Antarctic, and Alpine Research 52(1): 87–102. https://doi.org/10.1080/15230430.2020.1722397

Rajput MTM, Khan KM (1984) Araucarioxylon sp. A silicified Gymnosperm wood from Manchhar Formation. Pakistan Journal of Botany 16(1): 53–60.

Rameshkumar K, Menon LN, Rani MP, Anchu E, Kumar B, Prakashkumar R (2020) Threatened medicinal plants in the Western Ghats–phytochemical perspective. Conservation and Utilization of Threatened Medicinal Plants. Springer, 277–316. https://doi.org/10.1007/978-3-030-39793-7_10

Rehmatullah C (1971) Studies of the silicified wood from the Tertiary rocks of Sindh. M. Phil. thesis, University of Sindh.

Shar M, Trimizi SAS, Ahmed B (2010) Shoreoxylon ranikotensis sp. nov. , a new species of fossil wood Dipterocarpiaceae from Ranikot Fort area, district Jamshoro, Sindh, Pakistan Journal of Botany 12(4): 527–531.

Soomro N, Arain BA, Rajput MTM (2016 a) Albizzioxylon chinjiensis sp. nov., a new fossil species of the family Leguminosae from Chinji formation salt range, Punjab Pakistan. International Journal of Geomate 11(28): 2838–2843.

Soomro N, Jillani N, Quereshi S, Mangi J, Arain B, Rajput M (2017) Discovery of Miocene Wood from Manchar Formation, Lagerstroemioxylon thanobolensis sp. nov. of Family Lythraceae, Thano BulaKhan District Jamshoro, Sindh, Pakistan. Sindh University Research Journal-SURJ (Science Series) 49(3): 557–562. https://doi.org/10.26692/surj/2017.09.16

Soomro N, Mangi J, Jamali A, Jillani N, Arain B, Rajput M (2016b) Dichrostachyoxylon chinjiensis sp. nov., a new fossil species of the family Fabaceae from Chinji Formation, Salt Range, Punjab, Pakistan. Sindh University Research Journal-SURJ (Science Series) 48(4): 803–808.

Stoel BC, Borman TM (2008) A comparison of wood density between classical Cremonese and modern violins. PLoS ONE 3(7): e2554. https://doi.org/10.1371/journal.pone.0002554

Visscher GE, Jagels R (2003) Separation of Metasequoia and Glyptostrobus (Cupressaceae) based on wood anatomy. IAWA Journal 24(4): 439–450. https://doi.org/10.1163/22941932-90000348