Modern pollen assemblages from teak (Tectona grandis Linn. F.) dominated tropical deciduous forest in southwestern Madhya Pradesh, India
DOI:
https://doi.org/10.54991/jop.2013.333Keywords:
Pollen analysis, Surface sediments, Mixed tropical deciduous forests, Hoshangabad, Madhya Pradesh, IndiaAbstract
This paper gives an account on the modern pollen rain–vegetation relationships, based on the pollen analysis of 12 surface samples, 2 samples each collected from the southern, northern, eastern and western flanks of Amjhera Swamp as well as 4 from the mixed tropical deciduous forests dominated by teak (Tectona grandis) in Hoshangabad District, southwestern Madhya Pradesh, India. The pollen assemblages demonstrate the dominance of arboreals (trees and shrubs) over non–arboreals (herbs). Among the tree taxa, Madhuca indica is constantly represented with average pollen frequency of 37.36% in most of the samples which could be attributed to the good preservation of its pollen in the sediments coupled with its high pollen dispersal efficiency. Terminalia (av. 5.1%) is also retrieved steadily. However, Tectona grandis is untraced in the samples despite being an enormous pollen producer and dominant forest component, which could be due to its low pollen dispersal efficiency and differential pollen preservation. Besides, Adina cordifolia, Mitragyna parvifolia, Schleichera oleosa and Emblica officinalis are present with average pollen frequencies of 8.1%, 7.8%, 6.69% and 1.126%, respectively, but only in a few samples. Syzygium, Maytenus, Lagerstroemia, Lannea coromandelica, etc. are also intermittently recovered in almost all the samples, but in varying frequencies (< 0.5%–7.91%) despite their frequent presence in the forest. This erratic display of all these taxa could be inferred to their low pollen productivity, since majority of the tropical trees portray a strong tendency of entomophily. The partial preservation of their pollen in the sediments cannot also be denied. The relatively meagre representation of grasses, sedges, Malvaceae, Xanthium except Tubuliflorae and culture pollen taxa such as Cheno/Am, Caryophyllaceae, Brassicaceae and Cannabis sativa are suggestive of poor herbaceous cover around the swamp and also in the mixed tropical deciduous forest. However, the record of Cerealia and other culture pollen taxa stamps the proximity of cultivated land and human habitation in and around the investigation site. The abundance of trilete fern spore as well as Ceratopteris, monolete fern spore and trilete with perine, though in relatively low values envisages their origin from the local sources as ferns and their allies flourish well in moist and shady habitats.
Downloads
Metrics
References
Anupama K, Ramesh BR & Bonnefille R 2000. Modern pollen rain from the Biligirriagan–Melagiri hills of Southern Eastern Ghats, India. Review of Palaeobotany & Palynology 108: 175–196.
Barboni D & Bonnefille R 2001. Precipitation signal in pollen rain from tropical forests, south India. Review of Palaeobotany & Palynology 114: 239–258.
Bonnefille R, Anupama K, Barboni D, Pascal JP & Sutra JP 1999. Modern pollen spectra from tropical south India and Srilanka, altitudinal distribu¬tion. Journal of Biogeography 26: 1255–1280.
Champion HG & Seth SK 1968. A Revised Survey of Forest Types of India. Manager of Publications, Government of India, New Delhi.
Chauhan MS 1994. Modern pollen/vegetation relationship in the tropical deciduous sal (Shorea robusta) forests in District Sidhi, Madhya Pradesh. Journal of Palynology 30: 165–175.
Chauhan MS 1995. Origin and history of tropical deciduous sal (Shorea robusta Gaertn.) forests in Madhya Pradesh, India. Palaeobotanist 43: 89–101.
Chauhan MS 2000. Pollen evidence of Late–Quaternary vegetation and climatic changes in northeastern Madhya Pradesh. Palaeobotanist 49: 491–500.
Chauhan MS 2002. Holocene vegetation and climatic changes in southeastern Madhya Pradesh, India. Current Science 83: 1444–1445.
Chauhan MS 2004. Late–Holocene vegetation and climatic changes in eastern Madhya Pradesh. Gondwana Geological Magazine 19: 165–175.
Chauhan MS 2005. Pollen record of vegetation and climatic changes in northeastern Madhya Pradesh during last 1600 years. Tropical Ecology 46: 265–271.
Chauhan MS 2008. Pollen deposition pattern in tropical deciduous sal forests in Madhya Pradesh. Geophytology 37: 119–125.
Chauhan MS & Bera SK 1990. Pollen morphology of some important plants of tropical deciduous sal (Shorea robusta) forests, district Sidhi, Madhya Pradesh. Geophytology 20: 30–36.
Chauhan MS, Rajagopalan G, Sah MP, Philip G & Virdi NS 2001. Pollen ana¬lytical study of Late Holocene sediments from Trans Yamuna segment of Western Doon Valley of Northwest Himalaya. Palaeobotanist 50: 403–410.
Erdtman G 1943. An Introduction to Pollen Analysis. Chronica Botanica Company, Waltham, Mass. USA.
Faegri K 1966. Some problems of representativity in pollen analysis. Palaeo-botanist 15: 135–140.
Gupta HP & Yadav RR 1992. Interplay between pollen rain and vegetation of Tarai–Bhabar area in Kumaon Division, U.P., India. Geophytology 21: 183–189.
Janssen CR 1973. Local and regional pollen deposition. In: Birks HJB & West RG (Editors)—Quaternary Plant Ecology. Blackwell Scientific Publishing, Oxford: 31–42.
Luna SV, Figueroa J, Baltazar M, Gomez R, Townsend LR & Schoper JB 2002. Maize pollen longevity and distance isolation requirements for effective pollen control on coastal plain of Nayatri, Mexico. Crop Science 41: 1551–1575.
Mazier F, Gallop D, Brun C & Butler A 2006. Modern pollen assemblage from grazed vegetation in western Pyrenes, France: a numerical tool for more precise reconstruction of past cultural landscapes. Holocene 16: 91–113.
Nayar TS 1990. Pollen Flora of Maharashtra State, India. Today and Tom-marrow’s Printers & Publishers, New Delhi.
Quamar MF & Chauhan MS 2007. Modern pollen rain in the tropical mixed deciduous forests in district Umaria, Madhya Pradesh. Journal of Paly¬nology 43: 39–55.
Quamar MF & Chauhan MS 2009. Modern pollen rain–vegetation relationship in the tropical deciduous Teak (Tectona grandis Linn. F.) forest in southwestern Madhya Pradesh. Geophytology 38: 57–64.
Quamar MF & Chauhan MS 2011. Modern pollen spectra from Hoshangabad District, southwestern Madhya Pradesh, India. Geophytology 41: 55–60.
Sharma C 1985. Recent pollen spectra from Garhwal Himalaya. Geophytol-ogy 13: 87–97.
Shaw J, Sutcliffe J, Lloyd–Smith L, Schwenninger J, Chauhan MS, Mishra OP & Harwey C 2007. Ancient irrigation and Buddhist history in central India: Optically Stimulated Luminescence dates and pollen sequences from Sanchi dams. Asian Perspectives 46: 166–201.
Singh G, Chopra SK & Singh AB 1973. Pollen–rain from the vegetation of northwest India. New Phytology 72: 191–206.
Tauber H 1965. Differential pollen deposition and the interpretation of pollen diagrams. Danmarks geoliske undersøgelse. II. 89: 1–69.
Vincens A, Ssemmanda I, Roux M & Jolly D 1997. Study of modern pollen–rain in western Uganda with a numerical approach. Review of Palaeobotany & Palynology 96: 145–168.
Yadav DN, Chauhan MS & Sarin MM 2006. Geochemical and pollen records from northeastern Madhya Pradesh: An appraisal of Late–Quaternary vegetation and climate change. Journal of Geological Society of India 68: 95–102.
Downloads
Published
How to Cite
Issue
Section
License
This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.