The relationships between plant traits and soil properties in forest edges can provide insights into tree species recovery in edge habitats. In this study, we investigated the relationships between plant functional traits and soil conditions related to tree species recovery at the edges of two seasonally dry forests, a mixed deciduous forest (MDF) and a deciduous dipterocarp forest (DDF) in northern Thailand. We analyzed differences in functional trait diversity and community-level trait values between forests and performed RLQ analysis to assess the associations among species abundance, plant traits, and soil variables. We found that the MDF site had greater functional diversity and was dominated by plants with high specific leaf area (SLA) and leaf dry-matter content (LDMC) at the community level, whereas the DDF site had lower diversity and was dominated by plants with high wood density (WD) and leaf thickness (LT). The RLQ results indicated that at the MDF site, tree species with greater SLA (e.g., Pterocarpus macrocarpus, Dalbergia cultrata, and Phanera bracteata) were associated with soil clay content and nutrient status (i.e., nitrogen and calcium). Species with greater LDMC and leaf size (e.g., Xylia xylocarpa, Schleichera oleosa, and Chukrasia tabularis) were associated with soil organic matter content. At the DDF site, species with greater WD and LT (e.g., Dipterocarpus obtusifolius, Shorea siamensis, and Buchanania lanzan) were associated with soil sand content and bulk density. These patterns reflect the interplay between soil conditions and plant traits in the edge habitats of seasonally dry forests. Our results indicate that the edge effects on plant communities within seasonally dry forests depend on soil conditions and species-specific plant traits.
Keywords
, , , ,
Citation
Asanok L, Taweesuk R, Kamyo T (2022). Edge tree functional traits and their association with edaphic factors in seasonally dry forests in northern Thailand. iForest 15: 273-280. - doi: 10.3832/ifor3870-015
Academic Editor
Michele Carbognani
Paper history
Received: May 12, 2021
Accepted: May 26, 2022
First online: Jul 26, 2022
Publication Date: Aug 31, 2022
Publication Time: 2.03 months
© SISEF - The Italian Society of Silviculture and Forest Ecology 2022
Open Access
This article is distributed under the terms of the Creative Commons Attribution-Non Commercial 4.0 International (https://creativecommons.org/licenses/by-nc/4.0/), which permits unrestricted use, distribution, and reproduction in any medium, provided you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made.
Breakdown by View Type
(Waiting for server response...)
Article Usage
Total Article Views: 24096
(from publication date up to now)
Breakdown by View Type
HTML Page Views: 21773
Abstract Page Views: 1221
PDF Downloads: 888
Citation/Reference Downloads: 2
XML Downloads: 212
Web Metrics
Days since publication: 849
Overall contacts: 24096
Avg. contacts per week: 198.67
Article Citations
Article citations are based on data periodically collected from the Clarivate Web of Science web site
(last update: Feb 2023)
(No citations were found up to date. Please come back later)
Publication Metrics
by Dimensions ©
Articles citing this article
List of the papers citing this article based on CrossRef Cited-by.
(1)
Amatayakul P, Chomtha T (2013)Agricultural Meteorology to know for Phrae. Meteorological Development Bureau Press. Meteorological Department, Bangkok, Thailand, pp. 123. [in Thai]
Gscholar
(2)
Asanok L, Marod D, Duengkae P, Pranmongkol U, Kurokawa H, Aiba M, Katabuchi M, Nakashizuka T (2013)Relationships between functional traits and the ability of forest tree species to reestablish in secondary forest and enrichment plantations in the uplands of northern Thailand. Forest Ecology and Management 296: 9-23.
CrossRef |
Gscholar
(3)
Asanok L, Taweesuk R, Papakjan N (2020)Woody species colonization along edge-interior gradients of deciduous forest remnants in the Mae Khum Mee Watershed, Northern Thailand. International Journal of Forestry Research 2020: 1-13.
CrossRef |
Gscholar
(4)
Bagousse-Pinguet Le Y, Gross N, Maestre FT, Maire V, Bello De F, Fonseca CR, Kattge J, Valencia E, Leps J, Liancourt P (2017)Testing the environmental filtering concept in global drylands. Journal of Ecology 105: 1058-1069.
CrossRef |
Gscholar
(5)
Botta-Dukat Z (2005)Rao’s quadratic entropy as a measure of functional diversity based on multiple traits. Journal of Vegetation Science 16: 533-540.
CrossRef |
Gscholar
(6)
Bunyavejchewin S, Baker PJ, Davies SJ (2011)Seasonally dry tropical forest in Continental Southeast Asia structure, composition, and dynamics. In: “The Ecology and Conservation of Seasonally Dry Forest in Asia” (McShea WJ, Davies SJ, Bhumpakphan N eds). Smithsonian Institution Scholarly Press, Washington, DC, USA, pp. 9-35.
Gscholar
(7)
Chaturvedi RK, Raghubanshi AS, Singh JS (2011)Plant functional traits with particular reference to tropical. Journal of Biosciences 36: 963-981.
CrossRef |
Gscholar
(8)
Chave J, Coomes D, Jansen S, Lewis SL, Swenson NG, Zanne AE (2009)Towards a worldwide wood economics spectrum. Ecology Letters 12: 351-366.
CrossRef |
Gscholar
(9)
Choenkwan S, Fox JM, Rambo AT (2014)Agriculture in the mountains of northeastern Thailand: current situation and prospects for development agriculture in the mountains of northeastern Thailand. Mountain Research and Development 34: 95-106.
CrossRef |
Gscholar
(10)
Curtis JT, McIntosh RP (1951)An upland forest continuum in the Prairie-Forest Border Region of Wisconsin. Ecology 32: 476-496.
CrossRef |
Gscholar
(11)
Dexter AKG, Smart B, Baldauf C, Baker TR, Balinga MPB, Brienen RJW, Fauset S, Feldpausch TR, Silva LF, Muledi JI, Lewis SL, Marimon BS, Meerts P, Page N, Parthasarathy N, Phillips OL, Theilade I, Weintritt J, Araujo A, Arroyo L, Begne SK, Neves C, Collins M, Djuikouo MNK, Elias F, Foli EG, Jeffery KJ, Killeen TJ, Malhi Y, Maracahipes L, Mendoza C, Morandi P, Santos O, Parada AG, Pardo G, Peh KS, Salomão RP, Silveira M, Slik JWF, Sonke B, Taedoumg HE, Toledo M, Umetsu RK, Villaroel RG, Vos VA, White LJT, Pennington RT (2015)Floristics and biogeography of vegetation in seasonally dry tropical regions. International Forestry Review 17: 10-32.
CrossRef |
Gscholar
(12)
Diaz S, Hodgson JG, Thompson K, Cabido M, Cornelissen JHC, Jalili A, Montserrat-Marti G, Grime JP, Zarrinkamar F, Asri Y, Band SR, Basconcelo S, Castro-Diez P, Funes G, Hamzehee B, Khoshnevi M, Perez- Harguindeguy N, Perez-Rontome MC, Shirvany FA, Vendramini F, Yazdani S, Abbas-Azimi R, Bogaard A, Boustani S, Charles M, Dehghan M, De Torres-Espuny L, Falczuk V, Guerrero-Campo J, Hynd A, Jones G, Kowsary E, Kazemi-Saeed F, Maestro-Martinez M, Romo-Dize A, Shaw S, Siavash B, Villar-Salvador P, Zak MR (2004)The plant traits that drive ecosystems: evidence from three continents. Journal of Vegetation Science 15: 295-304.
CrossRef |
Gscholar
(13)
Diaz S, Kattge J, Cornelissen JHC, Wright IJ, Lavorel S, Dray S, Reu B, Kleyer M, Wirth C, Prentice IC, Garnier E, Bönisch G, Westoby M, Poorter H, Reich PB, Moles AT, Dickie J, Gillison AN, Zanne AE, Chave J, Wright SJ, Sheremetev SN, Jactel H, Baraloto C, Cerabolini B, Pierce S, Shipley B, Kirkup D, Casanoves F, Joswig JS, Gunther A, Falczuk V, Ruger N, Mahecha MD, Gorne LD (2016)The global spectrum of plant form and function. Nature 529: 167-171.
CrossRef |
Gscholar
(14)
Dray S, Choler P, Doledec S, Peres-Neto PR, Thuiller W, Pavoine S, Ter Braak CJF (2014)Combining the fourth-corner and the RLQ methods for assessing trait responses to environmental variation reports. Ecology 95: 14-21.
CrossRef |
Gscholar
(15)
Fraver S (1994)Vegetation responses along edge-to-interior gradients in the mixed hardwood forests of the Roanoke River Basin. Conservation Biology 8: 822-832.
CrossRef |
Gscholar
(16)
Frelich LM (2002)Forest dynamics and disturbance regimes: studies from temperate evergreen-deciduous forests. Cambridge University Press, Cambridge, UK, pp. 295.
Gscholar
(17)
Gong H, Gao J (2019)Soil and climatic drivers of plant SLA (specific leaf area). Global Ecology and Conservation 20: e00696.
CrossRef |
Gscholar
(18)
Goswami M, Bhattacharyya P, Mukherjee I, Tribedi P (2017)Functional diversity: an important measure of ecosystem functioning. Advances in Microbiology 7: 82-93.
CrossRef |
Gscholar
(19)
Harper KA, Macdonald SE, Mayerhofer MS, Biswas SR, Esseen PA, Hylander K, Stewart KJ, Mallik AU, Drapeau P, Jonsson BG, Lesieur D, Kouki J, Bergeron Y (2015)Edge influence on vegetation at natural and anthropogenic edges of boreal forests in Canada and Fennoscandia. Journal of Ecology 103: 550-562.
CrossRef |
Gscholar
(20)
Jin Y, Didham RK, Yuan J, Hu G, Yu J, Zheng S, Yu M (2020)Cross-scale drivers of plant trait distributions in a fragmented forest landscape. Ecography 43: 467-479.
CrossRef |
Gscholar
(21)
Katabuchi M, Kurokawa H, Davies SJ, Tan S, Nakashizuka T (2012)Soil resource availability shapes community trait structure in a species-rich dipterocarp forest. Journal of Ecology 100: 643-651.
CrossRef |
Gscholar
(22)
Keane R (2017)Disturbance regimes and the historical range and variation in terrestrial ecosystems. Reference Module in Life Sciences 1: 1-15.
CrossRef |
Gscholar
(23)
Kunstler G, Falster D, Coomes DA, Hui F, Kooyman RM, Laughlin DC, Poorter L, Vanderwel M, Vieilledent G, Wright SJ, Aiba M, Baraloto C, Caspersen J, Cornelissen JHC, Gourlet-Fleury S, Hanewinkel M, Herault B, Kattge J, Kurokawa H, Onoda Y, Penuelas J, Poorter H, Uriarte M, Richardson S, Ruiz-Benito P, Sun I, Stahl G, Swenson NG, Thompson J, Westerlund B, Wirth C, Zavala MA, Zeng H, Zimmerman JK, Zimmermann NE, Westoby M (2016)Plant functional traits have globally consistent effects on competition. Nature 529: 204-207.
CrossRef |
Gscholar
(24)
Laliberte E, Legendre P (2010)A distance-based framework for measuring functional diversity from multiple traits. Ecology 91: 299-305.
CrossRef |
Gscholar
(25)
Lattherasuwan T, Asanok L, Manggita W, Ngampiboolvej W (2015)Structure chalacteristics and land use change of Mae Khum Mee sub-watershed. Research Report, Maejo University, Phrae, Thailand, pp. 250. [in Thai]
Gscholar
(26)
Laurance WF, Nascimento HEM, Laurance SG, Andrade A, Ewers RM, Harms KE, Luiza RCC, Kingdom U, Rouge B, Effects VE (2007)Habitat fragmentation, variable edge effects, and the landscape-divergence hypothesis. PLoS One 2: e1017.
CrossRef |
Gscholar
(27)
Liu R, Pan Y, Bao H, Liang S, Jiang Y, Hu H, Nong J, Huang W (2020)Variations in soil physico-chemical properties along slope position gradient in secondary vegetation of the Hilly Region, Guilin, Southwest China. Sustainability 12: 1-16.
CrossRef |
Gscholar
(28)
Malysz M, Müller SC, Milesi SV, Stival A, Overbeck GE, Malysz M, Müller SC, Milesi SV, Stival A, Overbeck GE (2019)Functional patterns of tree communities in natural
Araucaria forests and old monoculture conifer plantations. Acta Botanica Brasilica 33: 777-785.
CrossRef |
Gscholar
(29)
Marod D, Kutintara U, Yarwudhi C, Tanaka H, Nakashisuka T (1999)Structural dynamics of a natural mixed deciduous forest in western Thailand. Journal of Vegetation Science 10: 777-786.
CrossRef |
Gscholar
(30)
Mason NWH, Lanoiselee C, Mouillot D, Irz P, Argillier C (2007)Functional characters combined with null models reveal inconsistency in mechanisms of species turnover in lacustrine fish communities. Oecologia 153: 441-452.
CrossRef |
Gscholar
(31)
McGill BJ, Enquist BJ, Weiher E, Westoby M (2006)Rebuilding community ecology from functional traits. Trends in Ecology and Evolution 21: 178-185.
CrossRef |
Gscholar
(32)
Mouillot D, Graham NAJ, Villeger S, Mason NWH, Bellwood DR (2013)A functional approach reveals community responses to disturbances. Trends in Ecology and Evolution 28: 167-177.
CrossRef |
Gscholar
(33)
Mouillot D, Villeger S, Scherer-Lorenzen M, Mason NWH (2011)functional structure of biological communities predicts ecosystem multifunctionality. PLoS One 6: e17476.
CrossRef |
Gscholar
(34)
Murcia C (1995)Edge effects in fragmented forests: implications for conservation. Trends in Ecology and Evolution 10: 58-62.
CrossRef |
Gscholar
(35)
Muscarella R, Lohbeck M, Martinez-Ramos M, Poorter L, Rodriguez-Velazquez JE, Van Breugel M, Bongers F (2017)Demographic drivers of functional composition dynamics. Ecology 98: 2743-2750.
CrossRef |
Gscholar
(36)
Myo K, Thwin S, Khaing N (2016)Floristic composition, structure and soil properties of mixed deciduous forest and deciduous dipterocarp forest: case study in Madan Watershed, Myanmar. American Journal of Plant Sciences 7: 279-287.
CrossRef |
Gscholar
(37)
Nagase A, Dunnett N (2011)The relationship between percentage of organic matter in substrate and plant growth in extensive green roofs. Landscape and Urban Planning 103: 230-236.
CrossRef |
Gscholar
(38)
Oosterhoorn M, Kappelle M (2000)Vegetation structure and composition along an interior-edge-exterior gradient in a Costa Rican montane cloud forest. Forest Ecology and Management 126: 291-307.
CrossRef |
Gscholar
(39)
Pinho BX, Tabarelli M, Engelbrecht BMJ, Sfair J, Melo FPL (2019)Plant functional assembly is mediated by rainfall and soil conditions in a seasonally dry tropical forest. Basic and Applied Ecology 40: 1-11.
CrossRef |
Gscholar
(40)
Pooma R, Suddee S (2014)Thai plant names Tem Smitinand. Office of the Forest Herbarium, Department of National Park, Wildlife and Plant Conservation, Bangkok, Thailand, pp. 806. [in Thai]
Gscholar
(41)
Poorter H, Niinemets U, Poorter L, Wright IJ, Villar R (2009)Causes and consequences of variation in leaf mass per area (LMA): a meta-analysis. New Phytologist 182: 565-588.
CrossRef |
Gscholar
(42)
Pywell RF, Bullock JM, Roy DB, Varman L, Walker KJ, Rothery P (2003)Plant traits as predictors of performance in ecological restoration. Journal of Applied Ecology 40: 65-77.
CrossRef |
Gscholar
(43)
Pérez-Harguindeguy N, Diaz S, Garnier E, Lavorel S, Poorter H, Jaureguiberry P, Bret-Harte MS, Cornwell WK, Craine JM, Gurvich DE, Urcelay C, Veneklaas EJ, Reich PB, Poorter L, Wright IJ, Ray P, Enrico L, Pausas JG, Vos De AC, Buchmann N, Funes G, Quetier F, Hodgson JG, Thompson K, Morgan HD, Steege H, Heijden Van MGA D, Sack L, Blonder B, Poschlod P, Vaieretti MV, Conti G, Staver AC, Aquino S, Cornelissen JHC (2013)New handbook for standardised measurement of plant functional traits worldwide. Australian Journal of Botany 61: 167-234.
CrossRef |
Gscholar
(44)
R Core Team (2017)R: a language and environment for statistical computing. R Foundation for Statistical Computing, Vienna, Austria.
Online |
Gscholar
(45)
Ricotta C, Moretti M (2011)CWM and Rao’s quadratic diversity: a unified framework for functional ecology. Oecologia 167: 181-188.
CrossRef |
Gscholar
(46)
Royal Forest Department (2019)Executive summary of forestland cover. RFD Press, Bangkok, Thailand, pp. 22. [in Thai]
Gscholar
(47)
Schwartz NB, Uriarte M, Defries R, Bedka KM, Fernandes K, Gutiérrez-Vélez V, Pinedo-Vasquez MA (2017)Fragmentation increases wind disturbance impacts on forest structure and carbon stocks in a western Amazonian landscape. Ecological Applications 27: 1901-1915.
CrossRef |
Gscholar
(48)
Soong JL, Janssens IA, Grau O, Margalef O, Stahl C, Langenhove Van L, Urbina I, Chave J, Dourdain A, Ferry B, Freycon V, Herault B, Sardans J, Peñuelas J, Verbruggen E (2020)Soil properties explain tree growth and mortality, but not biomass, across phosphorus-depleted tropical forests. Scientific Reports 2302: 1-13.
CrossRef |
Gscholar
(49)
Weathers KC, Cadenasso ML, Pickett STA (2001)Forest edges as nutrient and pollutant concentrators: potential synergisms between fragmentation, forest canopies, and the atmosphere. Conservation Biology 15: 1506-1514.
CrossRef |
Gscholar
(50)
Wright IJ, Reich PB, Westoby M, Ackerly DD, Baruch Z, Bongers F, Cavender-bares J, Chapin T, Cornelissen JHC, Diemer M, Flexas J, Garnier E, Groom PK, Gulias J, Hikosaka K, Lamont BB, Lee T, Lee W, Lusk C, Midgley JJ, Navas ML, Niinemets U, Oleksyn J, Osada N, Poorter H, Poot P, Prior L, Pyankov VI, Roumet C, Thomas SC, Tjoelker MG, Veneklaas EJ, Villar R (2004)The worldwide leaf economics spectrum. Nature 428: 821-827.
CrossRef |
Gscholar