MINISTRY OF EDUCATION AND TRAINING VIETNAM ACADEMY OF SCIENCE AND TECHNOLOGY GRADUATE UNIVERSITY OF SCIENCE AND TECHNOLOGY LU NGOC TRAM ANH PRIMARY SUCCESSION OF MANGROVE FOREST IN CON ONG TRANG, MUI CA MAU BIOSPHERE RESERVE Major: Ecology Code: 9.42.01.20 SUMMARY OF ECOLOGY DOCTORAL THESIS Ho Chi Minh City – 2020 This work was completed at Graduate University Science and Technology - Vietnam Academy of Science and Technology Academic supervisor 1: Assoc Prof Dr Vien Ngoc Nam Academic supervisor 2: Assoc Prof Dr Nguyen Thi Phuong Thao Reviewer 1: …………………………… Reviewer 2: …………………………… Reviewer 3: …………………………… The Dotoral thesis will be defended at the Doctoral thesis examination Board of Graduate University of Science and Technology – Vietnam Academy of Science and Technology at… Date … /……/ 2020 The thesis can be accessed from: - The library of Graduate University of Science and Technology - The National Library of Viet Nam -1GENERAL INFORMATION The importance for doing the thesis Mangrove forest has ecological, economic and environmental functions in climate change adaptation and mitigation This forest also helps in protecting sea dyke, alluvial soil, preventing erosion, limiting saline intrusion, regulating local climate, conservating biodiversity In addition, this ecosystem plays an important role in developing ecotourism and education Coastline of Viet Nam stretchs from the North to the South with the rich and diverse mangrove vegetation Mangrove ecosystem in Ca Mau province has typical features of this ecosytem in Vietnam and Southeast Asia Tran Thi Van et al (2015) identified that area of mangrove forest in Ca Mau province decreased from 71.345 (1953) to 33.083 (1992), after that rised to 46.712 (2011) The reasons of the area decline due to the toxic chemicals sprayed by the US army during the war, the land use change from forest land to agriculture and aquaculture land The mangrove ecosystem in Mui Ca Mau is mainly formed from river alluvium Con Ong Trang belonging to Mui Ca Mau National Park is a natural alluvial area including three sand dunes namely Con Trong, Con Ngoai and Con Moi that formed in Cua Lon river, Ong Trang estuary This is favorable area for research relating to impact of natural conditions on mangrove ecosytem because it formed according to the primary succession without human influence Therefore, the research on primary succesion in Con Ong Trang provide scientific data to mangrove study, scientific basis for planning of planting and appropriate using mangrove forest In addition, the reasearch is great significane for conservation and development of the -2mangrove ecosystem in Con Ong Trang where is the strictly protected of Mui Ca Mau National Park Objectives of study To identify boundaries and area that formed in various periods of time in Con Ong Trang To analyze primary succession of mangrove forest in Con Ong Trang and suggest the diagram of primary succession in this area To determine the distribution of mangrove plant species and structure of forest, quantitative analysis of plant diversity and calculate carbon storage in Con Ong Trang; as well as to analyse the impact of main ecological factors to structure, diversity and distribution of mangrove plants following space and time periods Object and scope of the research Object of the research: mangrove ecosystem in Con Ong Trang Research scope: mangrove plant species; criteria on topographic elevation, tide, soil characteristics; carbon stocks in Con Ong Trang Main contents of the thesis 4.1 Studying changes in area of mangrove forest in Con Ong Trang from its inception to the present 4.2 Investigating species composition, distribution, structure and diversity of mangrove plants in Con Ong Trang under the effects of ecological factors 4.3 Primary succession of mangrove forest in Con Ong Trang Scientific and practical significance of the thesis The thesis contributes to the development of theory of primary succession and provides important data to the research on mangrove ecosystem -3The thesis is the scientific background for the management, planning and selection of appropriate plant species in mangrove afforestation projects CHAPTER LITERATURE REVIEWS 1.1 Mangrove species diversity and mangrove forest structure Mangrove forest is an ecosystem in which plant species adapting to coastal and estuarine environments play the key role Mangrove plants are divided into two groups: Group of true mangroves and group of mangrove associates The thesis has reviewed the study results relating to: 1) mangrove species composition, 2) plant diversity in mangrove forest, 3) mangrove forest structure Southeast Asia was considered to be the most mangrove plants diverse region with 44 true mangrove species There were 35 true mangroves in mangrove flora of Vietnam and they developed abundantly in the South Coast The diversity index fluctuated among study areas Species belonging Avicennia and Rhizophora genus usually have the highest IVI value in many regions The distribution of number of trees acording to diameter and height classes were studied by many authors such as Calegario et al (2015), Seedo et al (2017), Nguyen Thi Nguyet and Ho Dac Hoang (2014), Vien Ngoc Nam et al (2016) … 1.2 Distribution of mangrove plants 1.2.1 Mangrove distribution of the world Mangrove forest was found along the tropical and subtropical coasts, mainly between latitudes 25° North and 25° South (Kauffman and Donato, 2012) -41.2.2 Mangrove distribution in Vietnam Phan Nguyen Hong et al (1999) divided mangrove forest of Vietnam into zones The mangrove at the South Coast has richer species composition than other zones 1.2.3 The impact of ecological factors to distribution of mangrove plants The mangrove plant distribution depended on various ecological factors including rainfall, temperature, tide, salinity and soil, … The number of individuals, number of species and tree size were affected by temperature and precipitation (Phan Nguyen Hong and Hoang Thi San, 1993) Tidal inundation was the main factor affecting the mangrove plant distribution (Giesen et al., 2007) Mangrove forests might occur on variety of sediments, mud, coral reefs; however, they grew best on muddy soil The appropriate salinity for mangrove plants was about – 30‰ (Lacerda et al., 2001) 1.2.4 Types of mangrove plant distribution Mangrove plants had two main form of distribution depending on structure of mangrove community They are random distribution and aggregate distribution 1.3 Carbon accumulation of mangrove forest Mangroves were one of the most carbon-rich forest types in the tropics Carbon accumulation of mangrove forest depended on specie composition, density, age and height classes, topography In general, above ground carbon pools accounted for about 40 – 45% of total carbon stock and in the root was 30 -75% -51.4 Mangrove succession 1.4.1 Ecological succession 1.4.1.1 Concept: The view of succession began with Clements’ concept (1961) According to Clements, succession of plants was an indeterminate chain of change 1.4.1.2 The causes of succession Ecological succession was a process that caused by many reason in which there were some main causes: Changes of natural condition impact on community in ecosystem; Living activities of community; Interation among species in community… 1.4.1.3 Classification of succession Succession was classified into primary succession, secondary succession and decomposition succession 1.4.2 Mangrove succession 1.4.2.1 Theory of mangrove succession The mangrove succession was a unique example of the primary succession of tropical coastal vegetation, because this ecosystem changed rapidly over time and in the space of material cycle 1.4.2.2 Studies in the world Chen and Twilley (1998) suggested the model of effects of salinity and soil nutrient content on distribution of three mangrove plant species Ball (1980) studied secondary succession of mangrove forest in the Southern Florida 1.4.2.3 Studies in Vietnam Phan Nguyen Hong and Hoang Thi San (1993) built succession diagram and identified typical species for each stage in various region Based on the soil conditions, Phung Trung Ngan and Chau Quang Hien (1987) stated the primary succession types of mangrove forests -6in Mui Chua (Quang Ninh province), CuaDai, Cua Ham Luong (Ben Tre province), the coast of Ho Chi Minh city and Ca mau province (Minh Hai) According to Thai van Trung (1998), the mangrove succession had three stages with various species composition The recent studies showed the replacement of communities following the changes of environmental and soil conditions in Ca Mau province Many authors described the succession mainly based on monitoring the current distribution status of mangroves and environment status However, the relationship between species composition and environmental factors have not quantitative analyzed Therefore, it is essential to have quantitative analysis of succession over the time and space in the relationship with environmental condition in mangrove forests 1.5 Research results on mangrove forest in Con Ong Trang Con Ong Trang was a region formed according to natural process without human effects Therefore, the mangrove ecosystem on the dunes of Ong Trang estuary was selected for many studies in recent times There were several authors have published their works relating to the investigating species composition of Con Trong or Con Ngoai (Ong Trang estuary, Ca Mau province), studying factors impacting the vegetation, learning the principle of forest structure in this area These studies were carried out in the recent times from 2007 to 2014 and study area was only Con Trong or Con Ngoai instead of for all dunes of Ong Trang estuary (belonging to Mui Ca Mau Biosphere Reserve) There was also not have any research on primary succession in Con Ong Trang -7CHAPTER STUDY AREA AND METHODS 2.1 Study area The study area included three sand dunes namely Con Trong, Con Ngoai and Con Moi with various forming time These dunes were located at Ong Trang estuary, Ngoc Hien district, Ca Mau province) In the thesis, this area was jointly referred to Con Ong Trang 2.3 Methods 2.3.1 Methodology: The methodology of this thesis based on: The view of Thai Van Trung (1998) and methodology of space-for-time substitution (Walker and Moral, 2003) 2.3.2 The area of regions formed in different time periods in mangrove forest in Con Ong Trang: Con Ong Trang were divided into areas forming in different periods of time (Figure 2.4; Table 2.3) 2.3.3 Method of investigating quadrats: In each quadrat, growth indicators of tree were determined including the scientific name and morphological characteristics of species; the number of individuals of each species, diameter at breast height and tree height Table 2.3 Number of quadrats in areas of Con Ong Trang Formation periods Before 1962 1962-1979 1979-1992 1992-2004 2004-2016 Total Con Trong No Areas quadrats V_CT IV_CT 12 III_CT 11 II_CT I_CT 11 43 Con Ngoai No Areas quadrats Con Moi No Areas quadrats III_CN II_CN I_CN I_CM 20 31 18 18 2.3.4 Method of species identification: Indentifying scientific name of species according to morphological comparison method based on main documents including Cay co Viet Nam (Pham Hoang Ho, 19992003), Rung ngap man Viet Nam (Phan Nguyen Hong et al., 1993), -8Mangroves of the Kien Giang biosphere reserve Vietnam (Norm Duke, 2012) 2.3.5 Methods of environmental parameters survey, soil collection and soil characteristics analyse a Classification of soil according to Decision 5365/QD-BNNTCLN b Determination of the tidal regime c Soil sampling: Collecting soil samples in two soil layers: 020 cm and 20-60 cm d Measurement of salinity and pH e Soil samples analysis with several parameters including content (%) of nitrogen, phosphorus, potassium, content of carbon and texture in both soil layers 2.3.6 Data analysis 2.3.6.1 Softwares used in data analysis included Microsoft Excel 2016, Statgraphics Centurion XVI., Biodiversity Pro 2.0, Primer 6.1.6 2.3.6.2 The formula for calculation a Importance Value Index (IVI): IVI = (RN + RF + RBA)/3 b Biodiversity indices included the species abundance, the evenness index, the diversity Shannon Wiener’s index and the Simpson’s dominance index were calculated using PRIMER 6.1.6 software c Biomass and forest stock, carbon storage Biomass: AGB = 0,251 x ρ x Dbh2,46 (kg); BGB = 0,199 x ρ0,899 x Dbh2,22 (kg) Carbon in aboveground biomass: CAGB = 0,47 x AGB Carbon in belowground biomass:CBGB = 0,39 x BGB -103.2.2.2 The importance value indices of mangrove plants in Con Trong The two dominant species in Con Trong were R apiculata and A alba The IVI of R apiculata was the highest (IVI = 54.98%); followed by A alba (IVI = 29.88%) 3.2.3 Mangrove plant distribution in Con Trong Aggregation was the main distribution types of mangrove plants in Con Trong (Table 3.8) At the similarity of 40%, A alba and R apiculata were belong to one group At the 20% level, three species including A alba, R apiculata and B parviflora were in a group 3.2.4 Effects of tides and soil charactersistics on mangrove plants distribution in Con Trong 3.2.4.1 Effects of tides on the mangrove plant distribution in Con Trong: the results of MDS analysis identified the distribution of dominant species according to various types of tidal inundation Fig 3.5 3.2.4.2 Effects of soil types on the mangrove plant distribution in Con Trong: The distribution of A alba and R apiculata were shown in Fig 3.6 3.2.4.3 Effects of soil characteristics on the mangrove plant distribution in Con Trong The results of PCA analysis indicated that community in Con Trong was divided into three groups With the increasing of salinity but decreasing of pH and potassium content, the number of R apiculata increased While mixed community (R apiculata - A alba) was effected by of phosphorus content as well as salinity 3.2.5 The alteration of plant species composition in Con Trong The IVI of A alba in newly form areas (2004 – 2016) was the highest After that the value declined in following stage of mangrove -11growth In contrast, IVI of R apiculata made an increase with forest age, from 27,23% (2004-2016) up to 79,35% (1962-1979) 3.2.6 The succession of forest structure in Con Trong The density of mangrove trees in Con Trong gradually dropped from beginning to the stable mature stage; and the rate of decrease differed in various stages Meanwhile, average of tree diameter and height rised and there were statistically significant differences among areas 3.2.7 Carbon accumulation in stages in Con Trong 3.2.7.1 Biomass and carbon stock in Con Trong The average biomass at the time of survey was 423.43 ± 157.76 -1 t The average carbon in aboveground biomass was 140.60 ± 53.78 t ha-1; in belowground biomass was 48.47 ± 16.92 t ha-1 3.2.7.2 Carbon accumulation in stages in Con Trong The carbon accumulation increased with forest age from beginning until the age of 37-54 but went down in following stage This was due to the decrease of individual density in community 3.2.8 Primary succession diagram in Con Trong Primary succession in Con Trong had three stages (Figure 3.9) Stage was early stage of succession taking place during first 12 years with several typical environmental characteristics Most area was frequently flooded tides, soil was mainly fluid-mud, pH was neutral (6.12 ± 0.75), salinity was about 31.68 ± 5.5‰ A alba was the pioneer species that can spread and developed Subsequently, R apiculata grew mixing with A alba Nevertheless, A alba was the absolute dominant species in this stage In the stage (from 12 to 54 years), the topographic elevation gradually raised, along with the changes in tidal inundation and soil -12characteristic created favaroble condition for the growth of R apiculata Therefore, R apiculata formed a mixed comminity with A alba and gradually dominates at the end of this period Environmental features of area in stage were medium tidal inundation and soft clay ground In this stage, R apiculata together with B parviflora formed a mixed community; there were also many individuals of A officinalis 3.3 Primary succession in Con Ngoai 3.3.1 Tidal and soil characteristics in Con Ngoai 3.3.1.1 Tidal inundation in Con Ngoai: 45% of total quadrats was frequently flooded with tides 3.3.1.2 Soil characteristics in Con Ngoai: Soil in Con Ngoai had ground types and in term of texture, 96% of area was clay 3.3.2 Plant diversity and forest structure in Con Ngoai 3.3.2.1 Mangrove plant species composition in Con Ngoai There were true mangrove species belonging to families in Con Ngoai mangrove forest In which several individuals of N fruticans appeared outside the quadrats 3.3.2.2 The importance value indices of mangrove plants in Con Ngoai The IVI value of R apiculata and A alba did not significantly differ, respectively 48.14% and 40.19%; there was no completely dominant species 3.3.3 Mangrove plant distribution in Con Ngoai Mangrove plants in Con Ngoai had two distribution types including aggregated and random distribution (Table 3.20) The topographic elevation and tidal inundation were relatively different -13among transects Therefore, many groups of plants formed in the corresponding environmental conditions 3.3.4 Effects of tides and soil charactersistics on mangrove plants distribution in Con Trong 3.3.4.1 Effects of tides on the mangrove plant distribution in Con Ngoai: MDS analysis showed the distribution of A alba, R apiculata, B parviflora in various types of tidal inundation 3.3.4.2 Effects of soil types on the mangrove plant distribution in Con Ngoai: A alba mainly appeared in fluid-mud and R apiculata distributed in mud and soft clay 3.3.4.3 Effects of soil characteristics on the mangrove plant distribution in Con Ngoai Mangrove plant communities in Con Ngoai was divided into groups In which mixed community (R apiculata-A alba) grew in high soil pH areas The number individual of A alba was direct ratio to potassium content 3.3.5 The alteration of plant species composition in Con Ngoai There was an alteration of species composition in Con Ngoai mangrove While S alba was only present in the early stage of 19922016, A officinalis and C zippeliana appeared later, until the period 1979-1992; B parviflora and B cylindrica are also found in 19922004 period Althouh A alba and R apiculata are both present in growing stages of the forest, IVI value of these two species had various increase or decrease 3.3.6 The succession of forest structure in Con Ngoai The density in areas of Con Ngoai were not statistically significant different During the period 1979-1992, the mangrove tree had a significant increase in diameter and height -143.3.7 Carbon accumulation in stages in Con Ngoai 3.3.7.1 Biomass and carbon stock in Con Ngoai The average carbon in aboveground biomass was 114.57 ± 44.23 t ha-1; in belowground biomass was 40.34 ± 14.50 t ha-1 3.3.7.2 Carbon accumulation in stages in Con Ngoai The carbon accumulation was not statistically significant difference between the first stage and the second stage; carbon stock made a strong increase in the third stage (180.45 ± 52.64 t ha-1) 3.3.8 Primary succession diagram in Con Ngoai Primary succession in Con Ngoai was presented as following: Stage took place during early 24 years In this stage, area was frequently flooded tides with fluid-mud, soil pH was quite low and average salinity was 35.59 ± 3.83 ‰ A alba was dominant species and there were also individuals of S alba scattered in the population of A alba In the end of the stage, R apiculata together with A alba formed A alba – R apiculata community In the second stage, forest age was over 24 years old, environmental parameters and soil features clearly changed Corresponding to the changes of environment, R apiculata became dominant species instead of A alba; these species formed mixed community 3.4 Primary succession in Con Moi 3.4.1 Tidal and soil characteristics in Con Moi The fluid-mud type was not found in Con Moi proving that soil was rather tight The proportion of soft clay in Con Moi was 50% -153.4.2 Plant diversity and forest structure in Con Moi 3.4.2.1 Mangrove plant species composition in Con Moi There were true mangrove species belonging to families in Con Moi mangrove forest In which several individuals of N A ilicifolius appeared outside the quadrats 3.4.2.2 Plant diversity in Con Moi The IVI of A alba was the highest with 75,68% while other species had very low IVI indicating that A alba was absolutely dominant in Con Moi 3.4.2.3 Mangrove forest structure in Con Moi The average density was 3228 ± 696 tree ha-1, the average diameter and height were respectively 7.6 ± 4.1 cm and 7.4 ± 2.7 m 3.4.3 Mangrove plant distribution in Con Moi The distribution of species namely A alba, R apiculata and B parviflora were mainly cluster At the similarity of 40%, R apiculata and B parviflora always distributed together while the rest not form any group 3.4.4 Effects of tides and soil charactersistics on mangrove plants distribution in Con Moi 3.4.4.1 Effects of tides on the mangrove plant distribution in Con Moi: The distribution of dominant species according to tidal inundation were analyzed and presented in Figure 3.21 3.4.4.2 Effects of soil types on the mangrove plant distribution in Con Moi: While A alba could distribute in variety types of soil, R apiculata mainly presented in clay soil types 3.4.4.3 Effects of soil characteristics on the mangrove plant distribution in Con Moi -16The results of PCA analysis indicated that A alba adapted to high salinity and low pH In contrast, B parviflora and B cylindrica distributed in areas with low salinity and high pH value 3.4.5 Carbon accumulation in stages in Con Moi The average carbon in aboveground biomass was 60.33 ± 19.76 -1 t , accounting for a large proportion of 73% The average carbon in belowground biomass was 90.19 ± 19.03 t ha-1 3.5 Primary succession in Con Ong Trang The three dunes formed in Ong Trang estuary including Con Trong, Con Ngoai and Con Moi were named as Con Ong Trang 3.5.1 Tidal and soil characteristics in Con Ong Trang 3.5.1.1 Topographic elevation of Con Ong Trang Topographic elevation fluctuated from 0.6 to 1.1 m 3.5.1.2 Tidal inundation in Con Ong Trang The results showed that 34% of the area was frequently flooded with tides, 35% inundated by low tides 3.5.1.3 Soil characteristics in Con Ong Trang a Soil types in Con Ong Trang The solid mud and soft clay had a large proportion in the study area and the ratio was different among the dunes b Soil texture in Con Ong Trang The percentage of clay in soil was 39.6 – 59.3%, higher than ratio of silt or sand c Soil characteristics in Con Ong Trang Soil pH value measured in this area was in the range of neutral The average salinity was 34.85 ± 6.42‰ The average content of nitrogen, phosphorus and potassium between the two soil layers were not statistically significant different -173.5.2 Plant diversity and forest structure in Con Ong Trang 3.5.2.1 Mangrove plant species composition in Con Ong Trang Mangrove forest in Con Ong Trang had 11 true mangrove species belonging to familias Of which, there were species found outside the quadrats The study indicated that a large number of individuals (52.04% of total individuals) belonged to Rhizophoraceae, followed by Acanthaceae (46.82%) 3.5.2.2 The importance value indices of mangrove plants in Con Ong Trang The two dominant species in Con Ong Trang were A alba and R apiculata The IVI value of these species were 44.07% and 42.73, respectively 3.5.2.3 Diversity indices in Con Ong Trang The Shannon-Wiener diversity indices varied from 0.38 to 0.6 indicating that the mangrove forests in the study area have low diversity The Simpson’s dominance indices ranged from 0.64 to 0.78 proving that there were many dominant species in the communities 3.5.2.4 Mangrove forest structure in Con Ong Trang The average density of individuals in Con Ong Trang was 2746 ± 887 tree ha-1; however, the tree densities were different among the dunes The curve of N-Dbh distribution had left deviation and number of individuals was generally in inverse ratio to diameter classes The frequency distribution of height was also various in the study area 3.5.3 Mangrove plant distribution in Con Ong Trang 3.5.3.1 Types of distribution of plant species in Con Ong Trang Species in Con Ong Trang had two distribution types including random and aggregated distribution -183.5.3.2 Distribution of mangrove species in communities of Con Ong Trang The result of similarity coefficient analysis showed that this coefficient of A alba and R apiculata was the highest At the similarity of 40%, there was only a group that included R apiculata and A alba; At the similarity of 20%, the species of the mangrove forest in Con Ong Trang were divided into groups, only S alba did not belong to any group 3.5.4 Effects of tides and soil charactersistics on mangrove plants distribution in Con Ong Trang 3.5.4.1 Effects of tides on the mangrove plant distribution in Con Ong Trang The distribution of species regarding to tidal inundation was presented as following: A alba mainly mostly distributed in areas with frequent flooding and low tide flooding; R apiculata adapted to areas with low and medium tidal inundation; B parviflora mainly distributed in areas flooded by medium tides 3.5.4.2 Effects of soil types on the mangrove plant distribution in Con Ong Trang A alba adapted to mud soil; R apiculata mainly distributed where ground types were solid mud and soft clay Soft clay was also appropriate to the growth of B parviflora 3.5.4.3 Effects of soil characteristics on the mangrove plant distribution in Con Ong Trang The results of PCA analysis indicated that mixed community of A alba and R apiculata was dominant where soil have high salinity, low pH value and low content of nitrogen In contrast, with lower -19salinity as well as higher pH value and %N, mixed community of R apiculata and A alba developed favourably 3.5.5 The alteration of plant species composition in Con Ong Trang There was an alteration of species composition in Con Ngoai mangrove over time The pioneer species, A alba, was gradually replaced by R apiculata and B parviflora Many of mangrove species also appeared and disappeared in the proccess of succession of the mangrove forest From data of three dunes, the research identified IVI value of species in stages with various time periods (Table 3.44) 3.5.6 The succession of forest structure in Con Ong Trang The density of individuals tended to decline from the first stage to later stages; Meanwhile, the average diameter and height made an increase over time The frequency distribution of diameter and height classes in each stage were also calculated 3.5.7 Carbon accumulation in stages in Con Ong Trang 3.5.7.1 Biomass and carbon stock in Con Ong Trang a Biomass of mangrove forest in Con Ong Trang The total biomas in the study area ranged from 186.99 t ha-1 to 423.43 t -1 Belowground biomass was less than aboveground biomass In addition, aboveground biomass in the dunes was different b Carbon in biomass of mangrove plants: Carbon in aboveground biomass was 73 – 74% of total carbon in biomass The amount of carbon in biomass also differed among study areas c Carbon accumulation in soil until 60 cm depth Soil carbon was 41.292 ± 12.14 t ha-1 in soil layer – 20 cm and 80.978 ± 26.31 t ha-1 in soil layer 20 – 60 cm -20d Carbon stock in carbon pools Carbon stock in carbon pools was high in areas that formed earlier; the trend of increase and decrease was uneven and different depending on various pools (Figure 3.42) Carbon stock in biomass rose faster than soil carbon 3.5.7.2 Carbon accumulation in stages in Con Ong Trang The carbon stock varied in different stages In general, there was not statistically significant differences between the first two stage; However, carbon stock increased in later stage (1979 – 1992) and reached a highest value in period 1962 – 1979 The last stage when forest age was the highest, the carbon stock declined 3.5.8 Primary succession diagram in Con Trong The primary succession in Con Ong Trang was presented as following: Stage was the first period of mangrove forest, it occurred until th 12 year of the mangrove In this stage, A alba scattered to and seized the newly area which was frequent flooded tides with fluid-mud, low pH value and high salinity This was favourable condition for development and regeneration of A alba In addition, there were individuals of S alba also distributed randomly in the community At the end of period, there were the presence of R apiculata in the community The second stage was in the range of forest age from 12 to 54 years old The elevation of the dunes gradually raised, environment also changed The area was mainly flooded by low tides; ground became tight with solid mud having the large proportion, soil pH value increase while salinity decrease These changes help species including R apiculata and B parviflora grow and penetrate into the population -21of A alba In the end of the period, the ground only flooded by medium tides with soft clay soil; therefore, the dominance of R apiculata was greatly higher compared to A alba Stage began when mangrove forest formed over 54 years In this period, the area was only flooded by medium tides, the type of soil was mainly soft clay, value of pH was about 6.91 ± 1.06, average salinity was 31.88 ± 2.10‰ While A alba was absent, R apiculata and B parviflora mixed together In the mixed community, there was appearance of A officinalis Figure 3.44 Primary succession in Con Ong Trang -22CONCLUSION AND SUGGESTION Conclusion The dunes at Ong Trang estuary including Con Trong, Con Ngoai and Con Moi were named Con Ong Trang The data analysis of map and satellite images indentified different areas of the dunes which formed in different time periods There were five areas in Con Trong, areas in Con Ngoai and only one area in Con Moi The primary succession of the mangroves in the dunes took place in different stages with various features The three stages of primary succession in Con Ong Trang were analyzed Specifically, the alteration of mangrove structure and species composition in corresponding to the variation of ecological factors including topographic elevation, tidal inundation, soil types and other soil characteristics were identified Addition to the changes of dominant species, there were many mangrove plant species also appeared and disappeared in stages of the succession in Con Ong Trang The mangrove structure, the diversity and distribution of plant species as well as the carbon stock in Con Ong Trang changed over time and were affected by environmental factors Suggestion - Locating permanent plots for long-term data collection and monitoring - Increasing the number of soil samples for analyzing the content of N, P, K, collecting soil samples in deeper layers, studying the carbon stock in litter and dead trees - Monitoring other environmental factors including temperature, precipitation and flow of Cua Lon river - Studying the regeneration of mangroves -23CONTRIBUTIONS OF THE THESIS The thesis identified the areas of Con Ong Trang formed in different periods corresponding to the stages of succession process The thesis analyzed the formation and features of the mangrove forest in Con Ong Trang in the relation to the habitat including tidal regime, topographic elevation and soil characteristics On that basis, the primary succession of the mangrove forest in Con Ong Trang was simulated in accordance with the variation of ecological factors The thesis contributed to scientific data on the mangrove ecology in Con Ong Trang including characteristics of environmental and soil factors as well as the effects of these factors to the distribution of mangrove species and communities; the plant diversity and mangrove structure in three dunes in various forming periods; the biomass and carbon stock of Con Ong Trang over time -24LIST OF PUBLICATIONS RELATING THE THESIS Lu Ngoc Tram Anh, Vo Hoang Anh Tuan, Vien Ngoc Nam (2017), Carbon accumulation of mangrove in Con Trong, Mui Ca Mau National Park in periods of time, Science and Technology Journal of Agriculture and Rural Development, 321, 143-148 Lu Ngoc Tram Anh, Vo Hoang Anh Tuan, Vien Ngoc Nam (2017), Soil carbon accumulation of mangroves in Con Ngoai, Mui Ca Mau National Park, Journal of Forest and Environment, 83, 38-41 Lu Ngoc Tram Anh, Vo Hoang Anh Tuan, Vien Ngoc Nam, Nguyen Thi Hai Ly, Nguyen Phan Minh Trung (2017), Initial data on carbon accumulation in biomass of mangroves at Con Ngoai, Ngoc Hien district, Ca Mau province, Proceeding of the 7th National Scientific Conference on Ecology and Biological Resources, 15391543 Lu Ngoc Tram Anh, Vien Ngoc Nam, Duong Duc Thanh (2017), Mangrove species distribution in Con Ngoai, Ngoc Hien district, Ca Mau province, Proceedings of the third international Conference on Estuarine Coastal and Shefl Studies - ECSS-2017, 474482 Lu Ngoc Tram Anh, Vien Ngoc Nam, Nguyen Thi Phuong Thao, Nguyen Thi Hai Ly (2018), The effects of soil characteristics on mangrove species distribution at Con Trong, Ong estuary, Ngoc Hien district, Ca Mau province, Can Tho University Journal of Science, 54, 75-80 ... in Con Ong Trang The three dunes formed in Ong Trang estuary including Con Trong, Con Ngoai and Con Moi were named as Con Ong Trang 3.5.1 Tidal and soil characteristics in Con Ong Trang 3.5.1.1... of Con Ong Trang over time -24LIST OF PUBLICATIONS RELATING THE THESIS Lu Ngoc Tram Anh, Vo Hoang Anh Tuan, Vien Ngoc Nam (2017), Carbon accumulation of mangrove in Con Trong, Mui Ca Mau National... Tram Anh, Vo Hoang Anh Tuan, Vien Ngoc Nam (2017), Soil carbon accumulation of mangroves in Con Ngoai, Mui Ca Mau National Park, Journal of Forest and Environment, 83, 38-41 Lu Ngoc Tram Anh,