Geographic Distributions and Ecology of Ornamental Curcuma (Zingiberaceae)
in Northeastern Thailand
The genus Curcuma is a very important economic plant. Members of this genus were used as food, medicine and ornament plants. The objectives of this study were to examine the geographic distributions and ecological conditions in the natural habitats of Curcuma in Northeastern Thailand. Species diversity was examined using the line transect method. Ecological conditions of the species were examined using a sampling plot of 20x20 m. A total of five species were found including Curcuma angustifolia Roxb., C. alismatifolia Gagnep., C. gracillima Gagnep., C. parviflora Wall. and C. rhabdota. These species were in an altitudinal range between 290 m and 831 m above sea level. Four species (C. angustifolia, C. alismatifolia, C. gracillima and C. rhabdota) were distributed in open gaps in dry dipterocarp forest. One species, C. parviflora was found in the contact zone between dry dipterocarp and bamboo (Gigantochloa sp.) forest. C. rhabdota was found only in a habitat with high humidity and shading along the Thailand-Lao PDR border. Significant ecological conditions of the natural habitats of these Curcuma species were identified. Altitude is the most important factor when determining the geographic distributions of these Curcuma species in Northeastern Thailand.
Received: October 27, 2012;
Accepted: February 08, 2013;
Published: March 04, 2013
The genus Curcuma L. belongs to the family Zingiberaceae (Ridley,
1924). Members of this genus are found in South and Southeast Asia. Some
species are also found in China, Australia and the South Pacific (Apavatjrut
et al., 1999; Leong-Skornickova et al.,
2008). The genus Curcuma is geographically wide spread in all regions
of Thailand, but it is mostly found in the North and Northeastern regions. The
number of species of Curcuma reported in Thailand varies between 50 and
100 species (Smith, 1981; Larsen et
al., 1998; Sirirugsa, 1996).
Many species of Curcuma have been used as food, medicine and decorative
plants (Schumann, 1904; Leong-Skornickova
et al., 2008). Some species have beautiful colors and compound spikes
with prominent bracts. The inflorescence has different colors, sizes and shapes.
The general colors are yellow, orange, red, pink and white. Curcuma species
grown for trading have been gathered and developed from wild species and cross
breed to respond to the market that demands different plants, beautiful flowers
and longer life. In addition to its beauty, these plants also contains essential
oils that are used as a traditional medicine to cure skin disease, rashes, sores
and sprains; it also reduces wound inflammation, eliminates gas in intestines
and treats dyspepsia (Purseglove, 1974; Heywood,
1985; Majeed et al., 1995; Apavatjrut
et al., 1999; Mahadtanapuk et al., 2006).
The rhizome can be used as cloth dye, food dye, a food ingredient and as a spice
to give a hot taste (Bhowmik et al., 2009).
According to Thai export statistics, ornamental Curcuma (e.g. C.
alismatifolia) was ranked seconded to orchids (Del Pilar
Paz et al., 2007). As a result, several species of Curcuma
have been collected from their natural habitat and then used for variety improvement
(e.g., C. gracilima Gagnep. (C. thorelii synonym), C. parviflora
Wall., C. roscoeana Wall. and C. harmandii Gagnep.). Due to the
high demand for Curcuma spp. it is important to consider the maintenance
of the species in their natural habitats and for future research and development
use. The objective of this study was to determine the geographic distributions
and ecological conditions of the microhabitats of ornamental Curcuma species
in Northeastern Thailand. The results of this study will be useful for conservation
and selective breeding of these important plants.
MATERIALS AND METHODS
Study area: The study areas were selected in four National Parks (NP) in the Northeastern region of Thailand where C. alismatifolia and other ornamental Curcuma species are found, including, (1) Phu Phan NP, Sakon Nakhon Province, (2) Kaeng Tana NP, Ubon Ratchathani Province, (3) Sai Thong NP and (4) Pa Hin Ngam NP, Chaiyaphum Province (Fig. 1).
Phu Phan NP has a total area of 664.71 km2. The topography of this
site is composed of high mountains, sloping land with small steep mountains
spreading in clusters. There are three types of forest: dry dipterocarp forest
covered about 41.58% dry evergreen forest covered about 22.16% and mixed deciduous
forest covered about 17.49% of the total area (Bunnag et
Kaeng Tana NP has a total area of 80 km2. General topography is
plateau and low mountains, while the Mun and Khong rivers passed through. The
average elevation was 200 m above sea level. The forest types found in this
area are dry evergreen forest covering approximately 8.35% and dry dipterocarp
forest covering approximately 84% of the total area (BDP,
Sai Thong NP has a total area of 319 km2. The typography is a mixture
of high and low mountains that are at altitudes from 300 m to 1,000 m above
sea level. The forest types are classified into three categories i.e., dry evergreen
forest, dry dipterocarp forest and mixed deciduous forest (BDP,
Pa Hin Ngam NP has a total area of 99.9 km2. The topography includes
a mountain range consisting of several mountains with altitudes ranging between
200 m and 800 m above sea level. The forest types are dry dipterocarp forest
and mixed deciduous forest (Sudee, 1994).
Sample collection and identification: Samples were collected from four
national parks in Northeastern Thailand (Table 1, Fig.
1) using line transect and sampling plot methods during June to October
2011. Species were identified using the keys and descriptions of Curcuma
from Wu and Larsen (2000) and Maknoi
(2006). Geographic positions of the species were recorded using a GRAMIN
GPS 60 model (Table 1). Environmental conditions at the sampling
location were measured from a sampling plot (20x20 m2). Soil density
(kg m-3) was measured by Eijkel kamp P.O. Agrisearch equipment box
6987 ZG and was pH measured by Soil pH Moisture Tester.
Data analysis: One-way analysis of variance (One-way ANOVA) was used to test the differentiation of the soil density, pH and altitude between species. Principal Components Analysis (PCA) was used to group the habitats of Curcuma species according to similarities in environmental conditions.
RESULTS AND DISCUSSION
Species diversity and geographic distributions: Five species (C.
angustifolia Roxb., C. alismatifolia Gagnep., C. gracillima
Gagnep., C. parviflora Wall. and C rhabdota (Sirirugsa
and M. Newman, 2000) of the ornamental Curcuma were found in the
four National Parks in Northeastern Thailand (Table 2, Fig.
||Study areas in four national parks in Northeastern Thailand
and list of species based on the line transect method
||Approximate locations of the study areas in four national
parks in Northeastern Thailand and (inset) map of Thailand showing the area
of the Northeastern Region (shaded)
||Ornamental Curcuma species found in this study (a
and b) Curcuma alismatifolia (c and d), Curcuma parviflora
(e and f), Curcuma gracillima, (g), Curcuma angustifolia (h),
Four species were found in Sai Thong NP and Phu Phan NP, including C. angustifolia,
C. alismatifolia, C. gracillima and C. parviflora.
||Ecological conditions in sampling plot (20x20 m) and list
of species of Curcuma found in sampling plot in four national parks
in Northeastern Thailand
||Statistical analysis of soil densities, pHs, and altitudes
of five species of Curcuma
|Means separation within columns by Duncans multiple
rang test, Values in columns follow by the same letter are not statistically
Three species (C. angustifolia, C. gracillima and C. rhabdota)
were found in Kaeng Tana NP and three species (C. angustifolia, C.
alismatifolia and C. gracillima) were found in Pa Hin Ngam NP (Table
A previous study reported 13 species of Curcuma in Northeastern Thailand
(Maknoi, 2006). The species that were not found in the
present study included C. amada Roxb., C. harmandii Gagnep., C.
petiolata Roxb., C. pierreana Gagnep., C. singularis Gagnep.,
C. sparganiifolia Gagnep., C. stenochila Gagnep. and C.
ubonratchathani (Maknoi, 2006). As different species
flower at different times (Apavatjrut et al., 1999)
and the flower is very important for species recognition in the Curcuma
it could be possible that these species were not flowering during our sampling
period, thus we were not able to collect them.
Two species were geographically widespread and covered almost all areas in
Northeastern Thailand, they were C. alismatifolia and C. gracillima.
C. altismatifolia was found in three national parks, namely Pa Hin Ngam
NP, Sai Thong NP and Phu Phan NP. Curcuma gracillima was found in three
national parks (Kaeng Tana NP, Pa Hin Ngam NP and Sai Thong NP). Our results
are consistent with previous reports related to the geographic distributions
of these species (Paisooksantivatana et al., 2001,
2002; Saensouk, 2000; Saensouk
and Chantaranothai, 2003). The geographically widespread nature of these
species was consist with the wide range of ecological conditions that are suitable
as habitats (Table 3) as species that can exploit a wide range
of ecological niches will be distributed in a wider range of geographic areas.
Two species were geographically restricted to only one area. C. parviflora
was found only in Phu Phan NP and C. rhabdota was found only in Kaeng
Tana NP. First description of C. rhabdota reported that the samples were
collected from the Lao PDR but the exact location was not identified (Sirirugsa
and Newman, 2000). Our results revealed that this species is also found
in Thailand in Ubon Ratchathani Province, which is located along the Thailand-Lao
Ecological conditions of the habitats: C. angustifolia was found
in habitats with the highest soil density (473±9.05 kg m-3)
and pH (6.73±0.26).
||Plot of the two principal components scores (PC I and PC II)
derived from principal components analysis of the three environmental conditions
of the 12 sampling plots for Curcuma species from four national parks
in Northeastern Thailand
C. rhabdota was found in the habitat with the lowest soil density (428±8.99
kg m-3) and C. parviflora found at the lowest pH (6.45±0.00)
(Table 3). The Curcuma species that were found at
low altitude (<300 m above sea level) were C. angustifolia, C.
parviflora and C. rhabdota. C. angustifolia was found in an
altitude range between 121 and 290 m above sea level.
C. parviflora and C. rhabdota were geographically restricted to Phu Phan NP at an altitude of 289 m above sea level and Kaeng Tana NP at an altitude of 121 m above sea level, respectively. C. alismatiolia and C. gracillima were found at a wide range of altitudes from 137 to 831 m above sea level (Table 2).
Comparisons of the ecological conditions between habitats revealed significant differences among the Curcuma species found in this study (Table 3). C. rhabdota was found in a habitat with significantly lower soil density than the other species. C. parviflora was found in a habitat with significantly lower pH than other species. C. alismatifolia and C. gracillima were found in habitats that were at significantly higher altitudes than C. angustifolia, C. rhabdota and C. parviflora.
At the wider ecological scale (i.e., forest types) four species (C. angustifolia, C. parviflora, C. alismatifolia and C. gracillima) were found in dry dipterocarp forest and grass fields along the edges of the dry dipterocarp forest. One species, C. rhabdota was found in a habitat composed of sedimentary clay that originated from the Mun River and had high moisture content. This specialized habitat requirement explains the narrow geographic distribution of this species.
Principal components analysis of the environmental conditions in the habitats revealed two Principal Components (PC) with eigenvalues higher than 1.0. The two PCS together accounted for 81.9% of the total variance. PC-1 accounted for 41.5% of the variation among species. Sampling plots with higher PC-1 scores have higher altitudes. PC-2 accounted for 39.4% of the variation in environmental variables. Sampling plots with higher PC-2 were high soil density and pH. Taken together, a plot of these two axes revealed three groups (group I, II and III) for the habitats of Curcuma species (Fig. 3). The sampling site for C. parviflora and almost all sampling sites for C. angustifolia fell into group I which is characterized by high altitude with moderate soil density and pH. Most sampling sites for C. rhabdota also fall in this group. Sampling sites for C. alismatifolia and C. gracillima belonged to group II which was characterized by high soil density and pH with moderate altitude. Some sampling site for C. alismatifolia belonged to group III which was characterized by low altitude, soil density and pH. These results suggest that C. angustifolia, C. parviflora and C. rhabdota are found mainly in higher altitude areas compare to C. alismatifolia and C. glacillima which are found mainly in lower altitude areas.
In conclusion, we found that Curcuma species in Northeastern Thailand largely overlap geographically but were also ecologically distinct. Our result indicates that altitude, pH and soil density are important ecological conditions habitats that determine the geographic distributions of Curcuma species.
This work was financially supported by the research grants from Mahasarakham University. We would like to thank the forestry department officers at Pa Hin Ngam National Park, and Sai Thong National Park, Chaiyaphum Province, Phu Phan National Park, Sakon Nakhon Province and Kaeng Tana National Park, Ubonratchathani Province for their help with sample collections. We would also like to thank Dr. Jolyon Dodgson (Mahasarakham University, Thailand) for English language improvement of the manuscript.
Apavatjrut, P., S. Anuntalabhochai, P. Sirirugsa and C. Alisi, 1999.
Molecular Markers in identification of some early flowering Curcuma
(Zingiberaceae) species. Ann. Bot., 84: 529-534.CrossRef |
Sub-area study and analysis 5T sub-area. Thai National Mekong Committee Department of Water Resources Ministry of Natural Resources and Environment. Bangkok, Thailand.
Bhowmik, D., Chiranjib, K.P. Sampath Kumar, M. Chandira, B. Jayakar, 2009.
Tumeric: A herbal and traditional medicine. Arch. Applies Sci. Res., 1: 86-108.
Bunnag, S., A. Luangpirom and P. Kongnonkok, 1999.
Cytogenetic studies on four species of Dendrobium
in Phu-Phan National Park, Sakon Nakon aand Kalasin Province. KKU Res. J., 4: 16-21.Direct Link |
Heywood, V.H., 1985.
Flowering Plants of the World. Croom Helm, London, Sydney, pp: 297-298
Larsen, M., J.M. Lock, H. Maas and P.J.M. Maas, 1998.
Zingiberaceae. In: The Families and Genera of Vascular Plants, Kubitzki, K. (Ed.). Vol. 4. Springer, Berlin
Leong-Skornickova, J., O. Sida, M. Sabu and K. Marhold, 2008.
Taxonomic and nomenclatural puzzles in Indian Curcuma
: The identity and nomenclatural history of C. zedoaria
(Christm.) roscoe and C. zerumbet
). Taxon, 57: 949-962.Direct Link |
Mahadtanapuk, S., N. Topoonyanont, T. Handa, M. Sanguansermsri and S. Anuntalabhochai, 2006.
Genetic transformation of Cyrcuma alismatifolia
Gagnep. Using retarded shoots. Plant Biotechnol., 23: 233-237.
Majeed, M., V. Badmeav, U. Shivakumar and R. Rajendran, 1995.
Curcuminoids: Antioxidant Phytonutrients. Sabinsa Coorporation, New Jersey, USA
Maknoi, C., 2006.
Taxonomy and phylogeny of the genus Curcuma
L. (Zingiberaceae) with particular reference to its occurrence in Thailand. Ph.D. Thesis, Prince of Songkla University, Thailand.
Del Pilar Paz, M., J.S. Kuehny and R.A. Criley, 2007.
Ornamental gingers as flowering potted plants. http://www.lsuagcenter.com/NR/rdonlyres/ABEF9350-D68F-4129-BA78-A9310212FDE7/9090/OFAGinger.pdf.
Paisooksantivatana, Y., S. Kako and H. Seko, 2001.
Isozyme polymorphism in Curcuma alismatifolia
Gagnep. (Zingiberaceae) populations from Thailand. Scientia Horticulturae, 88: 299-307.CrossRef |
Paisooksantivatana, Y., S. Kako and H. Seko, 2002.
Morphological variations of Cucuma alismatifolia
Gagnep. (Zingiberaceae) in relation to habitats at different elevations in Thailand. Thai J. Agric. Sci., 35: 115-126.
Purseglove, J.W., 1974.
Tropical Crops Monocotyledons. Longman Group Ltd., London
Ridley, H.N., 1924.
The Flora of the Malay Peninsula: Monocotyledones. Vol. 4, Reeve Press, London
Saensouk, S., 2000.
A study on morphology, chromosome and pollen of the family Zingiberaceae
in Phu Phan National Park. M.Sc. Thesis, Khon Kaen University, Thailand.
Saensouk, S. and P. Chantaranothai, 2003.
The Zingiberaceae in Phu Phan National Park. In: Proceeding of the 3rd Symposium on the family Zingiberaceae, Chantaranothai, P., K. Larsen, P. Sirirugsa and D. Simpson (Eds.). Khon Kaen university Publishers, Khon Kaen, Thailand, pp: 16-25
Schumann, K.M., 1904.
Zingiberaceae. In: Das Pflanzenreich IV, Engler, A. (Ed.). Engelmann Press, Leipzig
Sirirugsa, P., 1996.
The Genus Curcuma of Thailand. In: Proceedings of the 2nd Symposium on the Family Zingiberaceae, Wu, T.L., Q.G. Wu and Z.Y. Chen (Eds.). Zhongshan University Publishers, China, pp: 39-46
Sirirugsa, P. and M. Newman, 2000.
A new species of Curcuma
L. (Zingiberaceae) from S.E. Asia. New Plantsman, 7: 196-198.Direct Link |
Smith, R.M., 1981.
Synoptic Keys to the Genera of Zingiberaceae
Pro Parte. Royal Botanical Garden Edinburgh Press, Scotland
Sudee, S., 1994.
Taxonomic study on flowering plants in the Pa-Hin-Ngam Forest Park, Changwat Chaiyaphum. M.Sc. Thesis, Chulalongkorn University, Thailand.
Wu, T.L. and K. Larsen, 2000.
Zingiberaceae. In: Flora of China, Wu, Z.Y. and P.H. Raven (Ed.). Science Press, Beijing, pp: 359-362