Get 20M+ Full-Text Papers For Less Than $1.50/day. Start a 14-Day Trial for You or Your Team.

Learn More →

Invasive Alien Species of Terrestrial Vegetation of North-Eastern Uttar Pradesh

Invasive Alien Species of Terrestrial Vegetation of North-Eastern Uttar Pradesh Invasive Alien Species of Terrestrial Vegetation of North-Eastern Uttar Pradesh div.banner_title_bkg div.trangle { border-color: #2B3F2D transparent transparent transparent; opacity:0.8; /*new styles start*/ -ms-filter:"progid:DXImageTransform.Microsoft.Alpha(Opacity=80)" ;filter: alpha(opacity=80); /*new styles end*/ } div.banner_title_bkg_if div.trangle { border-color: transparent transparent #2B3F2D transparent ; opacity:0.8; /*new styles start*/ -ms-filter:"progid:DXImageTransform.Microsoft.Alpha(Opacity=80)" ;filter: alpha(opacity=80); /*new styles end*/ } div.banner_title_bkg div.trangle { width: 399px; } #banner { background-image: url('http://images.hindawi.com/journals/ijfr/ijfr.banner.jpg'); background-position: 50% 0;} Hindawi Publishing Corporation Home Journals About Us International Journal of Forestry Research About this Journal Submit a Manuscript Table of Contents Journal Menu About this Journal · Abstracting and Indexing · Aims and Scope · Article Processing Charges · Articles in Press · Author Guidelines · Bibliographic Information · Citations to this Journal · Contact Information · Editorial Board · Editorial Workflow · Free eTOC Alerts · Publication Ethics · Reviewers Acknowledgment · Submit a Manuscript · Subscription Information · Table of Contents Open Special Issues · Published Special Issues · Special Issue Guidelines Abstract Full-Text PDF Full-Text HTML Full-Text ePUB Linked References How to Cite this Article International Journal of Forestry Research Volume 2014 (2014), Article ID 959875, 9 pages http://dx.doi.org/10.1155/2014/959875 Research Article Invasive Alien Species of Terrestrial Vegetation of North-Eastern Uttar Pradesh Sumit Srivastava , Ashish Dvivedi , and Ravindra Prasad Shukla Plant Ecology Laboratory, Department of Botany, DDU, Gorakhpur University, Gorakhpur 273009, India Received 19 January 2014; Accepted 21 April 2014; Published 12 May 2014 Academic Editor: Robin Reich Copyright © 2014 Sumit Srivastava et al. This is an open access article distributed under the Creative Commons Attribution License , which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited. Abstract The vegetational landscape of north-eastern Terai region at the foot hills of Central Himalayas is a mosaic of grassland, old-field, wasteland, and forest ecosystems. Like many other parts of the country, this region is also infested with alien intruders which not only interfere with the growth and production of food crops but also exercise adverse effects on the biodiversity of native species. The present study attempts to catalogue the invasive alien species of the terrestrial vegetation of north-eastern Uttar Pradesh especially with reference to their habit, taxonomic position, and nativity. A total of 1135 plant species within 580 genera under 119 families are so far known to occur in the region. Of these, only 149 species within 100 genera under 41 families have been found to be invasive aliens as evident from their center of origin, past history, nature of aggregation, and invasion observed under field conditions. About 80% of these invaders have been introduced from neotropics. Out of 173 invasive plants across India, this region shares 149 species, out of which 66% of species have come from Tropical America, 14% from African continent, and the rest from other countries. A better planning in the form of early identification and reporting of infestation and spread of noxious weeds is needed for their control. 1. Introduction Invasion of alien plant species in recent times has been recognized as the second worst threat after habitat destruction [ 1 ]. The International Union for Conservation of Nature and Natural Resources (IUCN) defines “alien invasive species” as an alien species which becomes established in natural or seminatural ecosystems or habitat as agent of change and threatens native biological diversity. Identifying the processes that determine the distribution and diversity of exotic species is a major area of research in ecology because exotics impose significant economic, social, and environmental costs, including human health [ 2 ]. Biological invasion may be considered as a form of biological pollution and the significant component of anthropogenic changes leading to extinction of native species. The ecological approach to plant invasion has been mostly based on (a) biological and ecological features promoting the invasion success of particular species [ 3 , 4 ] and (b) the character and invasibility of invaded communities [ 5 ]. Recently, both approaches are treated as complementary [ 6 , 7 ]. The phytogeographical and floristic approaches are important for research on alien plants [ 8 ]. A number of workers have studied and provided catalogues of the invasive alien plant species in different parts of the world [ 9 – 12 ]. Establishment of a database of naturalized species is the first step in the development of invasion biology. A naturalized species is an introduced species that can consistently reproduce and sustain population over many generations without direct intervention by humans [ 13 , 14 ]. After successful establishment few naturalized species disperse and produce viable offsprings in areas far from the sites of their introduction. Such naturalized species are then called invasive. It is estimated that as many as 50% of invasive species, in general, can be classified as ecologically harmful [ 13 ]. Due to increasing trade and transcontinental transport, the floras of Indian subcontinent have a number of alien species from various parts of the world as evident from the studies made at different parts in India, namely, Upper Gangetic Plain [ 15 , 16 ], Khandwa Plateau [ 17 ], Kodaikanal and Palani Hills [ 18 ], Kashmir Himalaya [ 19 , 20 ], Ranchi [ 21 ], Gangtok [ 22 ], Allahabad [ 23 ], Rajasthan [ 24 ], South Gujarat [ 25 ], and Doon Valley [ 26 ]. This paper presents observations on the habit and nativity of invaders of north-eastern Uttar Pradesh and their impact on the diversity of native plants. 2. The Site, Climate, and Vegetation The study was conducted in the Terai landscape of north-eastern Uttar Pradesh. This area is characterized by even topography and fine alluvial deposits from Rapti and Gandak rivers. Mean altitude of the study area is 95 m amsl. The region slopes gently from north-west to south-east direction. Administratively the study area (~10,000 km 2 ; 27°5′ to 27°40′N latitude and 83°30′ to 84°E longitude) falls in Gorakhpur district of Uttar Pradesh state. It is bounded by Nepal in the north and Bihar state of India in the east. The landscape comprises a mosaic of human habitations, agricultural fields, grasslands, commercial plantations, and forests. The climate is typically monsoonic with three distinct seasons, namely, summer (March to mid-June), rainy (mid-June to mid-October), and winter (mid-October to February). The total average annual rainfall is about 1814 mm; about 87% of annual rainfall is received during warm rainy season and the rest 13% is distributed in the form of occasional showers from November to May. Relative humidity ranges between 74 and 87%. The mean maximum temperatures during wet summer, winter, and dry summer season are 35.2°, 27°, and 24–39°C and mean minimum temperatures are 26.2°, 12.1°, and 24.2°C, respectively (based on climatic data for 2000–2005). The soil of the region is classified as Gangetic alluvium, ranging from clayey to sandy loam in texture with pH ranging from 6.5 to 7.5. In the northern area there are a few elevated mounds, locally called dhus, which range in size from a few hundred meters to 4-5 km and have brown sandy soil. 3. Data Sources and Methods Over the period between 1960 and 2013, a comprehensive list of invasive alien plant species of north-eastern Uttar Pradesh was made. The truly aquatic plants were avoided but marshy plants were considered as component of terrestrial vegetation. Several extensive reviews on invasive plant species are available [ 12 , 27 – 33 ]. The website http://www.isws.in/invasive-plants-of-india.php [ 34 ] was also searched for information on the origin and nativity of these invaders. Some information pertaining to the nativity of the species in India has been extracted from 18, 21–24, and 36–40. Invasive alien species occurring in this region were compiled based on the literature survey, field observation, and discussion with local people. They were divided into three categories: naturalized, interfering, and noxious. Self-replacing plant populations by recruitment through seeds/ramets and capable of independent growth were categorized as naturalized . Alien and native plants which impacted agriculture adversely especially on the disturbed sites were taken as noxious . The adverse impact of noxious species was in the form of competition for space with tillage or forage crops and harbouring of pests or disease vectors, harmful to crops/native species. In addition to efficient vegetative mode of propagation the seeds of these species are mostly wind-distributed and may remain viable for several years. The species which were neither injurious nor noxious but caused profuse interference and hindrance to the growth of crop/native species over a large area by virtue of their vast numbers were taken as interfering . 4. Results A total of 149 species of invasive aliens of the terrestrial vegetation of north-eastern Uttar Pradesh have been documented. These 149 alien species belonged to 100 genera under 41 families. The alien species amounted to 13.1% of 1135 wild terrestrial plant species of the region. The habit, nativity, and the impact of invasive species on forest, grassland, and agricultural communities were noticed to prepare a catalogue of invasive alien/exotic plant species (Table 1 ). 100 aliens have their origin in Tropical America compared to 21 species in African continent. About 28 species of alien plants reached the study area from such far off places as Afghanistan, Australia, Brazil, East Indies, Europe, Madagascar, Mascarene Islands, Mediterranean, Mexico, Peru, Temperate South America, Tropical West Asia, West Indies, and Western Europe. Table 1: Wild invasive plant species in terrestrial vegetation of north-eastern Uttar Pradesh. The herbaceous elements predominated the regional alien flora. The number of dicot alien species was 136, under 93 genera and 32 families. On the other hand, there were only 13 species of monocot aliens distributed among 9 genera under 5 families (Amaryllidaceae, Arecaceae, Cyperaceae, Liliaceae, and Poaceae). Of 41 families having alien species, Asteraceae was the most dominant (29 species) followed by Convolvulaceae (11), Amaranthaceae and Solanaceae (9 species each), Euphorbiaceae (8), Caesalpiniaceae and Papilionaceae (7 each), Poaceae (6), Capparidaceae, Cyperaceae, Tiliaceae, and Verbenaceae (4 each), Asclepiadaceae, Chenopodiaceae, Lamiaceae, Malvaceae, Mimosaceae, and Onagraceae (3 each), Acanthaceae, Oxalidaceae, Papaveraceae, Pedaliaceae, Portulacaceae, and Scrophulariaceae (2 each), and Amaryllidaceae, Apocynaceae, Arecaceae, Brassicaceae, Cannabaceae, Cuscutaceae, Cactaceae, Liliaceae, Polygonaceae, Primulaceae, Passifloraceae, Piperaceae, Rosaceae, Sterculiaceae, Ulmaceae, Urticaceae, and Zygophyllaceae (1 species each). Of these aliens, 15 species were judged as noxious, 43 species as interfering, and 91 as naturalized species (Figure 1 ). Habit wise analysis shows that 80% of species are herbs, 12% are shrubs, 6% are herbaceous climbers, and 2% are trees (Figure 2 ). The eight dominant families contributed 47% of the invasive alien flora of wild terrestrial vegetation of north-eastern Uttar Pradesh (Figure 3 ). Figure 1: Families accounting for >5 speciesinvasive in the terrestrial vegetation of north-eastern Uttar Pradesh. Figure 2: Number (%) of plant invasive species under different habit categories within terrestrial vegetation of north-eastern Uttar Pradesh. Figure 3: Species number under three different categories of invasive plants. 5. Discussion Alien species are nonnative or exotic organisms that occur outside their natural adapted ranges and dispersal potential [ 35 ]. These invasive species are widely distributed in all kinds of ecosystems throughout the world and include all categories of living organisms. Nevertheless, plants, mammals, and insects comprise the most common types of invasive alien species in terrestrial environments [ 36 ]. Many alien plant species support our farming and forestry systems in a big way. However, some of these aliens become invasive when they are introduced deliberately or unintentionally outside their natural habitats into new areas where they express the capability to establish, invade, and outcompete native species [ 37 ]. An important requirement for successful colonization of invaders is open habitat with reduced competition. Generally, the microsites created by grazing may be occupied by invader species [ 38 – 40 ]. The invaders usually dominate the highly disturbed and man-made landscapes. So far, no ready hand catalogue of invasive species is available for this region. The present catalogue of invasive exotic species is likely to serve as basic information for future research towards conservation of native plant species of the region. As evident from the data, the vegetation of north-eastern Uttar Pradesh shows greater incidence of invaders as compared to the whole of Uttar Pradesh [ 41 ] and India [ 42 ]. Reddy documented all invasive plant species irrespective of their habitat and use. In the present case, however, only the wild invasive plant species of terrestrial vegetation were considered and truly aquatic and ornamental invasive species were excluded. Many species, recorded as invader of north-eastern Uttar Pradesh, are common to Indian Himalayan region and the whole of Uttar Pradesh. For example, 103 invaders are common to the whole of the state of Uttar Pradesh [ 41 ] and 95 species to the whole of India [ 42 ]. Among the invasive species of north-eastern Uttar Pradesh, 70.5% are native to American continent. Other such studies vary slightly in percent share of tropical American nativity. While Singh et al. [ 41 ] reported 73% of invasive plant species of Uttar Pradesh, for Indian Himalayan region, however, Sekar [ 43 ] also noticed 73% invaders of American nativity. Reddy [ 42 ] noticed 58% of the invasive flora of India to be natives of American continent. Alien species have been classified into naturalized and noxious species by various workers [ 13 , 44 , 45 ]. Our field observation and discussion with local people indicate that there are 15 most noxious invasive plant species in this region, namely, Ageratum conyzoides, Antigonon leptopus, Argemone mexicana, Cassia tora, Datura stramonium, Datura innoxia, Echinochloa crus-galli, Eupatorium adenophorum , Lantana camara, Lagascea mollis, Leucaena leucocephala, Mikania micrantha, Parthenium hysterophorus, Opuntia elatior, and Xanthium strumarium. Some species such as Ageratum conyzoides, Eupatorium adenophorum , Lantana camara, and Parthenium hysterophorus are harmful to native species [ 41 , 46 , 47 ]. Further, some of these species are known to be highly allergic, causing diseases in human beings [ 48 , 49 ]. Since they are rarely palatable, their dominance drastically reduces the number of grazers by way of reducing the carrying capacity of the pasture and wasteland [ 40 ]. Datura innoxia and Datura stramonium are serious threat to the native species of the region and are known to cause delay in seedling growth of neighbouring plants [ 50 ]. Leucaena leucocephala alters the natural growth of native plants because not only it obstructs plenty of sunlight to reach surface layer but also its allelopathic exudates cause retardation in seedling growth of neighbouring plants [ 51 ]. Mikania micrantha could climb trees and cover the whole habitats through fast vegetative propagation and could also suppress the growth of crops and natural vegetation through competition and allelopathic effects [ 45 ]. These species occur as invasive species under shifting agriculture in north-eastern Uttar Pradesh and combine an effective seed based reproduction with clonal propagation [ 52 ]. Many invasive species such as species of Eupatorium tend to respond to temporarily nutrient-enriched soil substrata and grow and quickly cover the gaps in disturbed forests. They can destroy arable soil, negatively affect the growth of orchard, and could also supplant grasses in pasture, excreting a toxic volatile that prevents grazing [ 48 ]. The herbaceous invasive plant species were recorded as the dominant invasive flora (80%) of north-east Uttar Pradesh, in the form of 119 invasive species. The greater viability and tolerance to harsh conditions could result in the preponderance of herbs across the region. Invasive species of Asteraceae exhibited a much higher reproductive capacity than those of other families. This high reproductive potential is achieved by partitioning of reproductive capital into a large number of propagules that are minute, light, and wind dispersed [ 53 ]. Various other workers have also reported the dominance of Asteraceae among invasive alien species in Uttar Pradesh [ 41 ] and in Indian Himalayan region [ 43 ]. The invasive species cause loss of biodiversity through species extinction and their impact on ecosystem function. Differences between native and invasive plant species in their resource acquisition and consumption may cause a change in soil structure, decomposition, and nutrient content of the soil. Thus, invasive species are a serious hindrance to conservation with significant undesirable impacts on the goods and services provided by ecosystems. Biological invasions now operate on a global scale and are likely to undergo rapid increase in this century due to interaction with other changes such as increasing travel and tourism. A quick monitoring of invasion can, therefore, be done through qualitative approach like species inventory method. 6. Conclusion Plant invasions in the new areas alter indigenous community composition, deplete species diversity, affect ecosystem process, and thus cause huge economic and ecological imbalance. A quick inventory and plant identification network are, therefore, needed for early detection and reporting of noxious and naturalized weeds in order to control the spread of invasive plant species. Conflict of Interests The authors declare that there is no conflict of interests regarding the publication of this paper. Acknowledgments The authors are thankful to the Head Department of Botany, D.D.U., Gorakhpur University, Gorakhpur, for providing access to departmental herbarium and other required facilities. They also feel grateful to the anonymous reviewer for his critical comments and suggestions to improve the quality and clarity of the content and to Dr. Robin Reich for very quick response. References C . B. D, “Invasive Alien species,” Convention on Biological Diversity, 2005, http://www.biodiv.org/programmes/cross-cuttings/Alien . D. S. Wilcove, D. Rothstein, J. Dubow, A. Phillips, and E. Losos, “Quantifying threats to imperiled species in the U. S.,” BioScience , vol. 48, no. 8, pp. 607–615, 1998. View at Scopus A. E. Newsome and I. R. Noble, “Ecological and physiological characters of invading species,” in Ecology of Biological Invasions: An Australian Perspective , R. H. Groves and J. J. Burdon, Eds., pp. 1–20, Australian Academy of Sciences, Canberra, Australia, 1986. M. Rejmánek, “What makes a species invasive?” in Plant Invasions: General Aspects and Special Problems , P. Pysek, K. Prach, M. Rejmánek, and M. Wade, Eds., pp. 3–13, SPB Academic, Amsterdam, The Netherlands, 1995. M. Rejmánek, “Invasibility of plant communities,” in Biological Invasions: A Global Perspective , J. A. Drake, H. A. Mooney, F. di Castri et al., Eds., pp. 369–388, John Wiley & Sons, Chichester, UK, 1989. D. M. Lodge, “Biological invasions: lessons for ecology,” Trends in Ecology and Evolution , vol. 8, no. 4, pp. 133–137, 1993. View at Scopus R. J. Hobbs and L. F. Huenneke, “Disturbance, diversity, and invasion: implications for conservation,” Conservation Biology , vol. 6, no. 3, pp. 324–337, 1992. View at Scopus J. A. McNeely, H. A. Mooney, L. E. Neville, P. Schei, and J. K. Waage, “A global strategy on invasive Alien species,” in Collaboration With the Global Invasive Species Programme , IUCN, Gland, Switzerland, 2001. J. A. Drake, H. A. Mooney, F. di Castri et al., Biological Invasions: A Global Perspective , John Wiley & Sons, New York, NY, USA, 1989. M. Williamson, Biological Invasions , Chapman & Hall, New York, NY, USA, 1996. J. R. Carey, P. Moyle, M. Rejmánek, and G. Vermeij, “Invasion biology,” Biological Conservation , vol. 78, pp. 1–214, 1996. P. Pysek, M. Chytry, J. Pergll, J. Sadloland, and J. Wild, “Plant invasions in the Czech Republic: current state, introduction dynamics, invasive species and invaded habitats,” Preslia , vol. 84, pp. 575–629, 2012. D. M. Richardson, P. Pyšek, M. Rejmánek, M. G. Barbour, F. Dane Panetta, and C. J. West, “Naturalization and invasion of Alien plants: concepts and definitions,” Diversity and Distributions , vol. 6, no. 2, pp. 93–107, 2000. View at Publisher · View at Google Scholar · View at Scopus P. Pyšek, J. Sádlo, and B. Mandák, “Catalogue of Alien plants of the Czech Republic,” Preslia , vol. 74, no. 2, pp. 97–186, 2002. View at Scopus M. B. Raizada, “Recently introduced or otherwise imperfectly known plants from the upper gangetic plain,” Journal of Indian Botanical Society , vol. 14, pp. 339–348, 1935. M. B. Raizada, “Recently introduced or otherwise imperfectly known plants from the upper gangetic plain,” Journal of Indian Botanical Society , vol. 15, pp. 149–167, 1936. J. K. Maheshwari, “Studies on the naturalized Flora of India,” in Proceedings of the Summer School of Botany , pp. 156–170, New Delhi, India. K. M. Matthew, “Alien flora of Kodai Kanal and Palni Hills,” Records of Botanical Survey of India , vol. 20, pp. 1–241, 1969. G. Singh and B. Misri, “Some exotic ornamentals of Kashmir,” Indian Journal of Horticulture , vol. 31, p. 834, 1974. G. Singh and P. Kachroo, “Exotic trees and shrubs of Kashmir,” Indian Forester , vol. 109, pp. 60–76, 1983. J. K. Maheswari and S. R. Paul, “The Alien flora of Ranchi,” Journal of the Bombay Natural History Society , vol. 72, pp. 158–188, 1975. P. K. Hajra and B. K. Das, “Vegetation of gangtok with special reference to Alien plants,” India Forums , vol. 107, pp. 554–566, 1982. B. D. Sharma, Exotic Flora of Allahabad , Botanical Survey of India, Dehra Dun, India, 1984. R. P. Pandey and P. J. Parmar, “The exotic flora of Rajasthan,” Journal of Economic and Taxonomic Botany , vol. 18, pp. 105–121, 1994. S. R. Kshirsagar, “Origin, present status and distribution of exotic plants in South Gujarat,” Indian Journal of Forestry , vol. 28, pp. 136–143, 2005. P. S. Negi and P. K. Hajra, “Alien flora of Doon Valley, Northwest Himalaya,” Current Science , vol. 92, no. 7, pp. 968–978, 2007. View at Scopus H. A. Mooney and J. A. Drake, “The ecology of biological invasions,” Environment , vol. 29, no. 5, pp. 10–37, 1987. View at Scopus C. M. D'Antonio and P. M. Vitousek, “Biological invasions by exotic grasses, the grass/fire cycle, and global change,” Annual Review of Ecology and Systematics , vol. 23, no. 1, pp. 63–87, 1992. View at Scopus P. T. Jenkins, “Trade and exotic species introductions,” in Invasive Species and Biodiversity Management , O. T. Sandlund and P. Schei, Eds., pp. 229–235, Kluwer Academic, Dodrecht, The Netherlands, 1999. H. A. Mooney and R. J. Hobbs, Invasive Species in a Changing World , Island Press, Washington, DC, USA, 2000. C. S. Elton, The Ecology of Invasions by Animals and Plants , University of Chicago Press, Chicago, Ill, USA, 2000. R. Cowie, “Does the Public care about Species loss? A Glimpse into the Public's thinking,” Conservation Biology in Practice , vol. 2, pp. 28–29, 2001. E. Wasson, Complete Encyclopedia of Trees and Shrubs: Descriptions, Cultivation Requirements, Pruning, Planting , Thunder Bay Press, San Diego, Calif, USA, 2003. C. S. Reddy, G. Bagyanarayana, K. N. Reddy, and V. S. Raju, “Invasive Alien Flora of India,” National Biological Information Infrastructure, USGS, USA, 2008, http://www.isws.in/invasive-plants-of-india.php . M. A. McGeoch, S. H. M. Butchart, D. Spear et al., “Global indicators of biological invasion: species numbers, biodiversity impact and policy responses,” Diversity and Distributions , vol. 16, no. 1, pp. 95–108, 2010. View at Publisher · View at Google Scholar · View at Scopus A. S. Raghubanshi, L. C. Rai, J. P. Gaur, and J. S. Singh, “Invasive Alien species and biodiversity in India,” Current Science , vol. 88, no. 4, pp. 539–540, 2005. View at Scopus Y. H. Sujay, H. N. Sattagi, and R. K. Patil, “Invasive Alien insects and their impact on agroecosystem,” Karnataka Journal of Agricultural Sciences , vol. 23, pp. 26–34, 2010. P. Singh, “ Lantana Weed and Lantana Lace bug,” Indian Forester , vol. 102, pp. 474–478, 1976. P. M. Sinha, “Studies on the use of some Weedicides on Lantana camara ,” Indian Forester , vol. 102, pp. 298–305, 1976. V. B. Sawarker, “ Lantana camara on wildlife habitats with special reference to the melaghat tiger reserve,” Cheetal , vol. 26, pp. 24–38, 1984. K. P. Singh, A. N. Shukla, and J. S. Singh, “State-level inventory of invasive Alien plants, their source regions and use potential,” Current Science , vol. 99, no. 1, pp. 107–114, 2010. View at Scopus C. S. Reddy, “Catalogue of invasive Alien flora of India,” Life Science Journal , vol. 5, no. 2, pp. 84–89, 2008. View at Scopus K. C. Sekar, “Invasive Alien plants of Indian Himalayan region—diversity and implication,” American Journal of Plant Science , vol. 3, pp. 177–184, 2012. S. H. Wu, C. F. Hsieh, and M. Rejmánek, “Catalogue of the naturalized flora of Taiwan,” Taiwania , vol. 49, pp. 16–31, 2004. Q. Q. Huang, J. M. Wu, Y. Y. Bai, L. Zhou, and G. X. Wang, “Identifying the most noxious invasive plants in China: role of geographical origin, life form and means of introduction,” Biodiversity and Conservation , vol. 18, no. 2, pp. 305–316, 2009. View at Publisher · View at Google Scholar · View at Scopus S. Tripathi and R. P. Shukla, “Effect of clipping and grazing on various vegetational parameters of grassland communities of Gorakhpur, Uttar Pradesh,” Tropical Ecology , vol. 48, no. 1, pp. 61–70, 2007. View at Scopus K. S. Dogra, R. K. Kohli, and S. K. Sood, “An assessment and impact of three invasive species in the Sivalik Hills of Himanchal Pradesh, India,” International Journal of Biodiversity Conservation , vol. 1, pp. 4–10, 2009. K. G. Saxena, “Biological invasion in the Indian sub-continent: review of invasion by plants,” in Ecology of Biological Invasion in the Tropics , P. S. Ramakrishnan, Ed., pp. 53–73, International Scientific Publications, New Delhi, India, 1991. S. Tripathi, Plant diversity of grassland of north-eastern U.P. with emphasis on population of Parthenium hysterophorus L. [Ph.D. thesis] , Gorakhpur University, Gorakhpur, India, 1999. S. K. Sood, S. Kumar, K. S. Dogra, and R. Sharma, “Alien plants distribution and ecology in the temple-courtyards of Himachal Pradesh, North-West Himalaya,” Himachal Pradesh University Journal , pp. 1–11, 2011. C. H. Chou, “Allelopathic researches in the subtropical vegetation in Taiwan,” Comparative Physiology and Ecology , vol. 5, pp. 222–234, 1980. P. S. Ramakrishnan, Ecology of Biological Invasions in the Tropics , International Scientific, New Delhi, India, 1991. K. G. Saxena and P. S. Ramakrishnan, “Partitioning of biomass and nutrients in the secondary successional herbaceous population subsequent to Slash and Burn,” Proceedings’of the Indian National Science Academy , vol. 8, pp. 807–818, 1982. var _gaq = _gaq || []; _gaq.push(['_setAccount', 'UA-8578054-2']); _gaq.push(['_trackPageview']); (function () { var ga = document.createElement('script'); ga.type = 'text/javascript'; ga.async = true; ga.src = ('https:' == document.location.protocol ? 'https://ssl' : 'http://www') + '.google-analytics.com/ga.js'; var s = document.getElementsByTagName('script')[0]; s.parentNode.insertBefore(ga, s); })(); http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png International Journal of Forestry Research Hindawi Publishing Corporation

Invasive Alien Species of Terrestrial Vegetation of North-Eastern Uttar Pradesh

Download PDF
10 pages

Loading next page...
 
/lp/hindawi-publishing-corporation/invasive-alien-species-of-terrestrial-vegetation-of-north-eastern-hy4WOpiASH

References

References for this paper are not available at this time. We will be adding them shortly, thank you for your patience.

Publisher
Hindawi Publishing Corporation
Copyright
Copyright © 2014 Sumit Srivastava et al.
ISSN
1687-9368
eISSN
1687-9376
Publisher site
See Article on Publisher Site

Abstract

Invasive Alien Species of Terrestrial Vegetation of North-Eastern Uttar Pradesh div.banner_title_bkg div.trangle { border-color: #2B3F2D transparent transparent transparent; opacity:0.8; /*new styles start*/ -ms-filter:"progid:DXImageTransform.Microsoft.Alpha(Opacity=80)" ;filter: alpha(opacity=80); /*new styles end*/ } div.banner_title_bkg_if div.trangle { border-color: transparent transparent #2B3F2D transparent ; opacity:0.8; /*new styles start*/ -ms-filter:"progid:DXImageTransform.Microsoft.Alpha(Opacity=80)" ;filter: alpha(opacity=80); /*new styles end*/ } div.banner_title_bkg div.trangle { width: 399px; } #banner { background-image: url('http://images.hindawi.com/journals/ijfr/ijfr.banner.jpg'); background-position: 50% 0;} Hindawi Publishing Corporation Home Journals About Us International Journal of Forestry Research About this Journal Submit a Manuscript Table of Contents Journal Menu About this Journal · Abstracting and Indexing · Aims and Scope · Article Processing Charges · Articles in Press · Author Guidelines · Bibliographic Information · Citations to this Journal · Contact Information · Editorial Board · Editorial Workflow · Free eTOC Alerts · Publication Ethics · Reviewers Acknowledgment · Submit a Manuscript · Subscription Information · Table of Contents Open Special Issues · Published Special Issues · Special Issue Guidelines Abstract Full-Text PDF Full-Text HTML Full-Text ePUB Linked References How to Cite this Article International Journal of Forestry Research Volume 2014 (2014), Article ID 959875, 9 pages http://dx.doi.org/10.1155/2014/959875 Research Article Invasive Alien Species of Terrestrial Vegetation of North-Eastern Uttar Pradesh Sumit Srivastava , Ashish Dvivedi , and Ravindra Prasad Shukla Plant Ecology Laboratory, Department of Botany, DDU, Gorakhpur University, Gorakhpur 273009, India Received 19 January 2014; Accepted 21 April 2014; Published 12 May 2014 Academic Editor: Robin Reich Copyright © 2014 Sumit Srivastava et al. This is an open access article distributed under the Creative Commons Attribution License , which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited. Abstract The vegetational landscape of north-eastern Terai region at the foot hills of Central Himalayas is a mosaic of grassland, old-field, wasteland, and forest ecosystems. Like many other parts of the country, this region is also infested with alien intruders which not only interfere with the growth and production of food crops but also exercise adverse effects on the biodiversity of native species. The present study attempts to catalogue the invasive alien species of the terrestrial vegetation of north-eastern Uttar Pradesh especially with reference to their habit, taxonomic position, and nativity. A total of 1135 plant species within 580 genera under 119 families are so far known to occur in the region. Of these, only 149 species within 100 genera under 41 families have been found to be invasive aliens as evident from their center of origin, past history, nature of aggregation, and invasion observed under field conditions. About 80% of these invaders have been introduced from neotropics. Out of 173 invasive plants across India, this region shares 149 species, out of which 66% of species have come from Tropical America, 14% from African continent, and the rest from other countries. A better planning in the form of early identification and reporting of infestation and spread of noxious weeds is needed for their control. 1. Introduction Invasion of alien plant species in recent times has been recognized as the second worst threat after habitat destruction [ 1 ]. The International Union for Conservation of Nature and Natural Resources (IUCN) defines “alien invasive species” as an alien species which becomes established in natural or seminatural ecosystems or habitat as agent of change and threatens native biological diversity. Identifying the processes that determine the distribution and diversity of exotic species is a major area of research in ecology because exotics impose significant economic, social, and environmental costs, including human health [ 2 ]. Biological invasion may be considered as a form of biological pollution and the significant component of anthropogenic changes leading to extinction of native species. The ecological approach to plant invasion has been mostly based on (a) biological and ecological features promoting the invasion success of particular species [ 3 , 4 ] and (b) the character and invasibility of invaded communities [ 5 ]. Recently, both approaches are treated as complementary [ 6 , 7 ]. The phytogeographical and floristic approaches are important for research on alien plants [ 8 ]. A number of workers have studied and provided catalogues of the invasive alien plant species in different parts of the world [ 9 – 12 ]. Establishment of a database of naturalized species is the first step in the development of invasion biology. A naturalized species is an introduced species that can consistently reproduce and sustain population over many generations without direct intervention by humans [ 13 , 14 ]. After successful establishment few naturalized species disperse and produce viable offsprings in areas far from the sites of their introduction. Such naturalized species are then called invasive. It is estimated that as many as 50% of invasive species, in general, can be classified as ecologically harmful [ 13 ]. Due to increasing trade and transcontinental transport, the floras of Indian subcontinent have a number of alien species from various parts of the world as evident from the studies made at different parts in India, namely, Upper Gangetic Plain [ 15 , 16 ], Khandwa Plateau [ 17 ], Kodaikanal and Palani Hills [ 18 ], Kashmir Himalaya [ 19 , 20 ], Ranchi [ 21 ], Gangtok [ 22 ], Allahabad [ 23 ], Rajasthan [ 24 ], South Gujarat [ 25 ], and Doon Valley [ 26 ]. This paper presents observations on the habit and nativity of invaders of north-eastern Uttar Pradesh and their impact on the diversity of native plants. 2. The Site, Climate, and Vegetation The study was conducted in the Terai landscape of north-eastern Uttar Pradesh. This area is characterized by even topography and fine alluvial deposits from Rapti and Gandak rivers. Mean altitude of the study area is 95 m amsl. The region slopes gently from north-west to south-east direction. Administratively the study area (~10,000 km 2 ; 27°5′ to 27°40′N latitude and 83°30′ to 84°E longitude) falls in Gorakhpur district of Uttar Pradesh state. It is bounded by Nepal in the north and Bihar state of India in the east. The landscape comprises a mosaic of human habitations, agricultural fields, grasslands, commercial plantations, and forests. The climate is typically monsoonic with three distinct seasons, namely, summer (March to mid-June), rainy (mid-June to mid-October), and winter (mid-October to February). The total average annual rainfall is about 1814 mm; about 87% of annual rainfall is received during warm rainy season and the rest 13% is distributed in the form of occasional showers from November to May. Relative humidity ranges between 74 and 87%. The mean maximum temperatures during wet summer, winter, and dry summer season are 35.2°, 27°, and 24–39°C and mean minimum temperatures are 26.2°, 12.1°, and 24.2°C, respectively (based on climatic data for 2000–2005). The soil of the region is classified as Gangetic alluvium, ranging from clayey to sandy loam in texture with pH ranging from 6.5 to 7.5. In the northern area there are a few elevated mounds, locally called dhus, which range in size from a few hundred meters to 4-5 km and have brown sandy soil. 3. Data Sources and Methods Over the period between 1960 and 2013, a comprehensive list of invasive alien plant species of north-eastern Uttar Pradesh was made. The truly aquatic plants were avoided but marshy plants were considered as component of terrestrial vegetation. Several extensive reviews on invasive plant species are available [ 12 , 27 – 33 ]. The website http://www.isws.in/invasive-plants-of-india.php [ 34 ] was also searched for information on the origin and nativity of these invaders. Some information pertaining to the nativity of the species in India has been extracted from 18, 21–24, and 36–40. Invasive alien species occurring in this region were compiled based on the literature survey, field observation, and discussion with local people. They were divided into three categories: naturalized, interfering, and noxious. Self-replacing plant populations by recruitment through seeds/ramets and capable of independent growth were categorized as naturalized . Alien and native plants which impacted agriculture adversely especially on the disturbed sites were taken as noxious . The adverse impact of noxious species was in the form of competition for space with tillage or forage crops and harbouring of pests or disease vectors, harmful to crops/native species. In addition to efficient vegetative mode of propagation the seeds of these species are mostly wind-distributed and may remain viable for several years. The species which were neither injurious nor noxious but caused profuse interference and hindrance to the growth of crop/native species over a large area by virtue of their vast numbers were taken as interfering . 4. Results A total of 149 species of invasive aliens of the terrestrial vegetation of north-eastern Uttar Pradesh have been documented. These 149 alien species belonged to 100 genera under 41 families. The alien species amounted to 13.1% of 1135 wild terrestrial plant species of the region. The habit, nativity, and the impact of invasive species on forest, grassland, and agricultural communities were noticed to prepare a catalogue of invasive alien/exotic plant species (Table 1 ). 100 aliens have their origin in Tropical America compared to 21 species in African continent. About 28 species of alien plants reached the study area from such far off places as Afghanistan, Australia, Brazil, East Indies, Europe, Madagascar, Mascarene Islands, Mediterranean, Mexico, Peru, Temperate South America, Tropical West Asia, West Indies, and Western Europe. Table 1: Wild invasive plant species in terrestrial vegetation of north-eastern Uttar Pradesh. The herbaceous elements predominated the regional alien flora. The number of dicot alien species was 136, under 93 genera and 32 families. On the other hand, there were only 13 species of monocot aliens distributed among 9 genera under 5 families (Amaryllidaceae, Arecaceae, Cyperaceae, Liliaceae, and Poaceae). Of 41 families having alien species, Asteraceae was the most dominant (29 species) followed by Convolvulaceae (11), Amaranthaceae and Solanaceae (9 species each), Euphorbiaceae (8), Caesalpiniaceae and Papilionaceae (7 each), Poaceae (6), Capparidaceae, Cyperaceae, Tiliaceae, and Verbenaceae (4 each), Asclepiadaceae, Chenopodiaceae, Lamiaceae, Malvaceae, Mimosaceae, and Onagraceae (3 each), Acanthaceae, Oxalidaceae, Papaveraceae, Pedaliaceae, Portulacaceae, and Scrophulariaceae (2 each), and Amaryllidaceae, Apocynaceae, Arecaceae, Brassicaceae, Cannabaceae, Cuscutaceae, Cactaceae, Liliaceae, Polygonaceae, Primulaceae, Passifloraceae, Piperaceae, Rosaceae, Sterculiaceae, Ulmaceae, Urticaceae, and Zygophyllaceae (1 species each). Of these aliens, 15 species were judged as noxious, 43 species as interfering, and 91 as naturalized species (Figure 1 ). Habit wise analysis shows that 80% of species are herbs, 12% are shrubs, 6% are herbaceous climbers, and 2% are trees (Figure 2 ). The eight dominant families contributed 47% of the invasive alien flora of wild terrestrial vegetation of north-eastern Uttar Pradesh (Figure 3 ). Figure 1: Families accounting for >5 speciesinvasive in the terrestrial vegetation of north-eastern Uttar Pradesh. Figure 2: Number (%) of plant invasive species under different habit categories within terrestrial vegetation of north-eastern Uttar Pradesh. Figure 3: Species number under three different categories of invasive plants. 5. Discussion Alien species are nonnative or exotic organisms that occur outside their natural adapted ranges and dispersal potential [ 35 ]. These invasive species are widely distributed in all kinds of ecosystems throughout the world and include all categories of living organisms. Nevertheless, plants, mammals, and insects comprise the most common types of invasive alien species in terrestrial environments [ 36 ]. Many alien plant species support our farming and forestry systems in a big way. However, some of these aliens become invasive when they are introduced deliberately or unintentionally outside their natural habitats into new areas where they express the capability to establish, invade, and outcompete native species [ 37 ]. An important requirement for successful colonization of invaders is open habitat with reduced competition. Generally, the microsites created by grazing may be occupied by invader species [ 38 – 40 ]. The invaders usually dominate the highly disturbed and man-made landscapes. So far, no ready hand catalogue of invasive species is available for this region. The present catalogue of invasive exotic species is likely to serve as basic information for future research towards conservation of native plant species of the region. As evident from the data, the vegetation of north-eastern Uttar Pradesh shows greater incidence of invaders as compared to the whole of Uttar Pradesh [ 41 ] and India [ 42 ]. Reddy documented all invasive plant species irrespective of their habitat and use. In the present case, however, only the wild invasive plant species of terrestrial vegetation were considered and truly aquatic and ornamental invasive species were excluded. Many species, recorded as invader of north-eastern Uttar Pradesh, are common to Indian Himalayan region and the whole of Uttar Pradesh. For example, 103 invaders are common to the whole of the state of Uttar Pradesh [ 41 ] and 95 species to the whole of India [ 42 ]. Among the invasive species of north-eastern Uttar Pradesh, 70.5% are native to American continent. Other such studies vary slightly in percent share of tropical American nativity. While Singh et al. [ 41 ] reported 73% of invasive plant species of Uttar Pradesh, for Indian Himalayan region, however, Sekar [ 43 ] also noticed 73% invaders of American nativity. Reddy [ 42 ] noticed 58% of the invasive flora of India to be natives of American continent. Alien species have been classified into naturalized and noxious species by various workers [ 13 , 44 , 45 ]. Our field observation and discussion with local people indicate that there are 15 most noxious invasive plant species in this region, namely, Ageratum conyzoides, Antigonon leptopus, Argemone mexicana, Cassia tora, Datura stramonium, Datura innoxia, Echinochloa crus-galli, Eupatorium adenophorum , Lantana camara, Lagascea mollis, Leucaena leucocephala, Mikania micrantha, Parthenium hysterophorus, Opuntia elatior, and Xanthium strumarium. Some species such as Ageratum conyzoides, Eupatorium adenophorum , Lantana camara, and Parthenium hysterophorus are harmful to native species [ 41 , 46 , 47 ]. Further, some of these species are known to be highly allergic, causing diseases in human beings [ 48 , 49 ]. Since they are rarely palatable, their dominance drastically reduces the number of grazers by way of reducing the carrying capacity of the pasture and wasteland [ 40 ]. Datura innoxia and Datura stramonium are serious threat to the native species of the region and are known to cause delay in seedling growth of neighbouring plants [ 50 ]. Leucaena leucocephala alters the natural growth of native plants because not only it obstructs plenty of sunlight to reach surface layer but also its allelopathic exudates cause retardation in seedling growth of neighbouring plants [ 51 ]. Mikania micrantha could climb trees and cover the whole habitats through fast vegetative propagation and could also suppress the growth of crops and natural vegetation through competition and allelopathic effects [ 45 ]. These species occur as invasive species under shifting agriculture in north-eastern Uttar Pradesh and combine an effective seed based reproduction with clonal propagation [ 52 ]. Many invasive species such as species of Eupatorium tend to respond to temporarily nutrient-enriched soil substrata and grow and quickly cover the gaps in disturbed forests. They can destroy arable soil, negatively affect the growth of orchard, and could also supplant grasses in pasture, excreting a toxic volatile that prevents grazing [ 48 ]. The herbaceous invasive plant species were recorded as the dominant invasive flora (80%) of north-east Uttar Pradesh, in the form of 119 invasive species. The greater viability and tolerance to harsh conditions could result in the preponderance of herbs across the region. Invasive species of Asteraceae exhibited a much higher reproductive capacity than those of other families. This high reproductive potential is achieved by partitioning of reproductive capital into a large number of propagules that are minute, light, and wind dispersed [ 53 ]. Various other workers have also reported the dominance of Asteraceae among invasive alien species in Uttar Pradesh [ 41 ] and in Indian Himalayan region [ 43 ]. The invasive species cause loss of biodiversity through species extinction and their impact on ecosystem function. Differences between native and invasive plant species in their resource acquisition and consumption may cause a change in soil structure, decomposition, and nutrient content of the soil. Thus, invasive species are a serious hindrance to conservation with significant undesirable impacts on the goods and services provided by ecosystems. Biological invasions now operate on a global scale and are likely to undergo rapid increase in this century due to interaction with other changes such as increasing travel and tourism. A quick monitoring of invasion can, therefore, be done through qualitative approach like species inventory method. 6. Conclusion Plant invasions in the new areas alter indigenous community composition, deplete species diversity, affect ecosystem process, and thus cause huge economic and ecological imbalance. A quick inventory and plant identification network are, therefore, needed for early detection and reporting of noxious and naturalized weeds in order to control the spread of invasive plant species. Conflict of Interests The authors declare that there is no conflict of interests regarding the publication of this paper. Acknowledgments The authors are thankful to the Head Department of Botany, D.D.U., Gorakhpur University, Gorakhpur, for providing access to departmental herbarium and other required facilities. They also feel grateful to the anonymous reviewer for his critical comments and suggestions to improve the quality and clarity of the content and to Dr. Robin Reich for very quick response. References C . B. D, “Invasive Alien species,” Convention on Biological Diversity, 2005, http://www.biodiv.org/programmes/cross-cuttings/Alien . D. S. Wilcove, D. Rothstein, J. Dubow, A. Phillips, and E. Losos, “Quantifying threats to imperiled species in the U. S.,” BioScience , vol. 48, no. 8, pp. 607–615, 1998. View at Scopus A. E. Newsome and I. R. Noble, “Ecological and physiological characters of invading species,” in Ecology of Biological Invasions: An Australian Perspective , R. H. Groves and J. J. Burdon, Eds., pp. 1–20, Australian Academy of Sciences, Canberra, Australia, 1986. M. Rejmánek, “What makes a species invasive?” in Plant Invasions: General Aspects and Special Problems , P. Pysek, K. Prach, M. Rejmánek, and M. Wade, Eds., pp. 3–13, SPB Academic, Amsterdam, The Netherlands, 1995. M. Rejmánek, “Invasibility of plant communities,” in Biological Invasions: A Global Perspective , J. A. Drake, H. A. Mooney, F. di Castri et al., Eds., pp. 369–388, John Wiley & Sons, Chichester, UK, 1989. D. M. Lodge, “Biological invasions: lessons for ecology,” Trends in Ecology and Evolution , vol. 8, no. 4, pp. 133–137, 1993. View at Scopus R. J. Hobbs and L. F. Huenneke, “Disturbance, diversity, and invasion: implications for conservation,” Conservation Biology , vol. 6, no. 3, pp. 324–337, 1992. View at Scopus J. A. McNeely, H. A. Mooney, L. E. Neville, P. Schei, and J. K. Waage, “A global strategy on invasive Alien species,” in Collaboration With the Global Invasive Species Programme , IUCN, Gland, Switzerland, 2001. J. A. Drake, H. A. Mooney, F. di Castri et al., Biological Invasions: A Global Perspective , John Wiley & Sons, New York, NY, USA, 1989. M. Williamson, Biological Invasions , Chapman & Hall, New York, NY, USA, 1996. J. R. Carey, P. Moyle, M. Rejmánek, and G. Vermeij, “Invasion biology,” Biological Conservation , vol. 78, pp. 1–214, 1996. P. Pysek, M. Chytry, J. Pergll, J. Sadloland, and J. Wild, “Plant invasions in the Czech Republic: current state, introduction dynamics, invasive species and invaded habitats,” Preslia , vol. 84, pp. 575–629, 2012. D. M. Richardson, P. Pyšek, M. Rejmánek, M. G. Barbour, F. Dane Panetta, and C. J. West, “Naturalization and invasion of Alien plants: concepts and definitions,” Diversity and Distributions , vol. 6, no. 2, pp. 93–107, 2000. View at Publisher · View at Google Scholar · View at Scopus P. Pyšek, J. Sádlo, and B. Mandák, “Catalogue of Alien plants of the Czech Republic,” Preslia , vol. 74, no. 2, pp. 97–186, 2002. View at Scopus M. B. Raizada, “Recently introduced or otherwise imperfectly known plants from the upper gangetic plain,” Journal of Indian Botanical Society , vol. 14, pp. 339–348, 1935. M. B. Raizada, “Recently introduced or otherwise imperfectly known plants from the upper gangetic plain,” Journal of Indian Botanical Society , vol. 15, pp. 149–167, 1936. J. K. Maheshwari, “Studies on the naturalized Flora of India,” in Proceedings of the Summer School of Botany , pp. 156–170, New Delhi, India. K. M. Matthew, “Alien flora of Kodai Kanal and Palni Hills,” Records of Botanical Survey of India , vol. 20, pp. 1–241, 1969. G. Singh and B. Misri, “Some exotic ornamentals of Kashmir,” Indian Journal of Horticulture , vol. 31, p. 834, 1974. G. Singh and P. Kachroo, “Exotic trees and shrubs of Kashmir,” Indian Forester , vol. 109, pp. 60–76, 1983. J. K. Maheswari and S. R. Paul, “The Alien flora of Ranchi,” Journal of the Bombay Natural History Society , vol. 72, pp. 158–188, 1975. P. K. Hajra and B. K. Das, “Vegetation of gangtok with special reference to Alien plants,” India Forums , vol. 107, pp. 554–566, 1982. B. D. Sharma, Exotic Flora of Allahabad , Botanical Survey of India, Dehra Dun, India, 1984. R. P. Pandey and P. J. Parmar, “The exotic flora of Rajasthan,” Journal of Economic and Taxonomic Botany , vol. 18, pp. 105–121, 1994. S. R. Kshirsagar, “Origin, present status and distribution of exotic plants in South Gujarat,” Indian Journal of Forestry , vol. 28, pp. 136–143, 2005. P. S. Negi and P. K. Hajra, “Alien flora of Doon Valley, Northwest Himalaya,” Current Science , vol. 92, no. 7, pp. 968–978, 2007. View at Scopus H. A. Mooney and J. A. Drake, “The ecology of biological invasions,” Environment , vol. 29, no. 5, pp. 10–37, 1987. View at Scopus C. M. D'Antonio and P. M. Vitousek, “Biological invasions by exotic grasses, the grass/fire cycle, and global change,” Annual Review of Ecology and Systematics , vol. 23, no. 1, pp. 63–87, 1992. View at Scopus P. T. Jenkins, “Trade and exotic species introductions,” in Invasive Species and Biodiversity Management , O. T. Sandlund and P. Schei, Eds., pp. 229–235, Kluwer Academic, Dodrecht, The Netherlands, 1999. H. A. Mooney and R. J. Hobbs, Invasive Species in a Changing World , Island Press, Washington, DC, USA, 2000. C. S. Elton, The Ecology of Invasions by Animals and Plants , University of Chicago Press, Chicago, Ill, USA, 2000. R. Cowie, “Does the Public care about Species loss? A Glimpse into the Public's thinking,” Conservation Biology in Practice , vol. 2, pp. 28–29, 2001. E. Wasson, Complete Encyclopedia of Trees and Shrubs: Descriptions, Cultivation Requirements, Pruning, Planting , Thunder Bay Press, San Diego, Calif, USA, 2003. C. S. Reddy, G. Bagyanarayana, K. N. Reddy, and V. S. Raju, “Invasive Alien Flora of India,” National Biological Information Infrastructure, USGS, USA, 2008, http://www.isws.in/invasive-plants-of-india.php . M. A. McGeoch, S. H. M. Butchart, D. Spear et al., “Global indicators of biological invasion: species numbers, biodiversity impact and policy responses,” Diversity and Distributions , vol. 16, no. 1, pp. 95–108, 2010. View at Publisher · View at Google Scholar · View at Scopus A. S. Raghubanshi, L. C. Rai, J. P. Gaur, and J. S. Singh, “Invasive Alien species and biodiversity in India,” Current Science , vol. 88, no. 4, pp. 539–540, 2005. View at Scopus Y. H. Sujay, H. N. Sattagi, and R. K. Patil, “Invasive Alien insects and their impact on agroecosystem,” Karnataka Journal of Agricultural Sciences , vol. 23, pp. 26–34, 2010. P. Singh, “ Lantana Weed and Lantana Lace bug,” Indian Forester , vol. 102, pp. 474–478, 1976. P. M. Sinha, “Studies on the use of some Weedicides on Lantana camara ,” Indian Forester , vol. 102, pp. 298–305, 1976. V. B. Sawarker, “ Lantana camara on wildlife habitats with special reference to the melaghat tiger reserve,” Cheetal , vol. 26, pp. 24–38, 1984. K. P. Singh, A. N. Shukla, and J. S. Singh, “State-level inventory of invasive Alien plants, their source regions and use potential,” Current Science , vol. 99, no. 1, pp. 107–114, 2010. View at Scopus C. S. Reddy, “Catalogue of invasive Alien flora of India,” Life Science Journal , vol. 5, no. 2, pp. 84–89, 2008. View at Scopus K. C. Sekar, “Invasive Alien plants of Indian Himalayan region—diversity and implication,” American Journal of Plant Science , vol. 3, pp. 177–184, 2012. S. H. Wu, C. F. Hsieh, and M. Rejmánek, “Catalogue of the naturalized flora of Taiwan,” Taiwania , vol. 49, pp. 16–31, 2004. Q. Q. Huang, J. M. Wu, Y. Y. Bai, L. Zhou, and G. X. Wang, “Identifying the most noxious invasive plants in China: role of geographical origin, life form and means of introduction,” Biodiversity and Conservation , vol. 18, no. 2, pp. 305–316, 2009. View at Publisher · View at Google Scholar · View at Scopus S. Tripathi and R. P. Shukla, “Effect of clipping and grazing on various vegetational parameters of grassland communities of Gorakhpur, Uttar Pradesh,” Tropical Ecology , vol. 48, no. 1, pp. 61–70, 2007. View at Scopus K. S. Dogra, R. K. Kohli, and S. K. Sood, “An assessment and impact of three invasive species in the Sivalik Hills of Himanchal Pradesh, India,” International Journal of Biodiversity Conservation , vol. 1, pp. 4–10, 2009. K. G. Saxena, “Biological invasion in the Indian sub-continent: review of invasion by plants,” in Ecology of Biological Invasion in the Tropics , P. S. Ramakrishnan, Ed., pp. 53–73, International Scientific Publications, New Delhi, India, 1991. S. Tripathi, Plant diversity of grassland of north-eastern U.P. with emphasis on population of Parthenium hysterophorus L. [Ph.D. thesis] , Gorakhpur University, Gorakhpur, India, 1999. S. K. Sood, S. Kumar, K. S. Dogra, and R. Sharma, “Alien plants distribution and ecology in the temple-courtyards of Himachal Pradesh, North-West Himalaya,” Himachal Pradesh University Journal , pp. 1–11, 2011. C. H. Chou, “Allelopathic researches in the subtropical vegetation in Taiwan,” Comparative Physiology and Ecology , vol. 5, pp. 222–234, 1980. P. S. Ramakrishnan, Ecology of Biological Invasions in the Tropics , International Scientific, New Delhi, India, 1991. K. G. Saxena and P. S. Ramakrishnan, “Partitioning of biomass and nutrients in the secondary successional herbaceous population subsequent to Slash and Burn,” Proceedings’of the Indian National Science Academy , vol. 8, pp. 807–818, 1982. var _gaq = _gaq || []; _gaq.push(['_setAccount', 'UA-8578054-2']); _gaq.push(['_trackPageview']); (function () { var ga = document.createElement('script'); ga.type = 'text/javascript'; ga.async = true; ga.src = ('https:' == document.location.protocol ? 'https://ssl' : 'http://www') + '.google-analytics.com/ga.js'; var s = document.getElementsByTagName('script')[0]; s.parentNode.insertBefore(ga, s); })();

Journal

International Journal of Forestry ResearchHindawi Publishing Corporation

Published: May 12, 2014

There are no references for this article.