THE ROLE OF MANGROVE FORESTS IN THE COAST AND DYKES WEST SEA ZONE PROTECTION: A CASE STUDY IN KIEN GIANG AND CA MAU

Purpose : The study aimed to provide a picture total of the forest and erosion status of the beach and dykes of Kien Giang and Ca Mau. Method: There are 18 sample plots for testing. The map also includes 68 survey plots that are predefined and used as a basis for positioning in the field. The measurement indicators include tree species identification. Results and conclusion: The level of erosion in Ha Tien’s forests varies based on tree density and environmental factors. The forest with no erosion has a thickness of 9,600 trees/ha and a stem diameter of 19 cm, while the extremely erosion forest has 2,000 trees/ha and a stem diameter of 6 cm. Topographically, Ha Tien has little erosion, while U Minh is a low-lying area with high erosion. Erosion levels are 1-2 in January-April, 4-5 in May-October and 3 in November-December. Currently, the section is divided into 28 sub-sections, with Kien Giang having 23. One sub-section is level 1, 11 sub-sections are level 2, 1 is level 3, 3 are level 4, and 3 are level 5. In Ca Mau, two sub-sections are level 4, and 3 are level 5.


INTRODUCTION
Vietnam boasts one of the world's most extensive mangrove forests, particularly in the coastal regions of the South and the Mekong Delta (Tran 2007).These forests hold significant ecological and biological diversity values and offer substantial economic benefits (Kathiresan & Bingham 2001;Das et al 2015).Mangroves play a crucial role in preventing coastal erosion and degradation (Besset et al 2019).Their unique characteristics, e.g., their submerged root system that affects water flow and their ability to withstand saline environments, make them essential for coastal protection.The extensive root system of mangrove trees creates a network that helps to stabilize the soil and prevent erosion caused by high tides and waves (Alongi 2008).Moreover, mangroves can be used to restore eroding coastlines by creating a forest area that stabilizes the soil and provides an area for planting (El-Nahry & Doluschitz 2010;Besset et al 2019).However, the mangrove forests in Vietnam are under threat from various challenges.Economic development and urbanization can harm ecosystems due to the increased emission of CO2 from human activities (Abdel Jawad & Nagy, 2023).Coastal mangrove forests are also significantly affected by the presence of coastal cities, impacting species and ecosystems.Environmental pollution and ecological imbalances have also diminished the quality and quantity of species in the mangrove forests (Lovelock et al. 2015).Wastewater from 3 production processes can pollute the existing water sources in the soil (De Souza et al., 2023), which can also negatively impact plant species within the ecosystem.
A sea dike is an engineering structure built along the coast to prevent waves and protect the land from erosion and flooding.Sea dikes play a critical role in protecting the mainland, infrastructure, and people living in coastal areas (Schoonees et al., 2019).One of the essential functions of a sea dike is to protect the coast from erosion and abrasion.Strong waves and currents can erode the coastline, causing damage to properties and infrastructure built on the coast.A sea dike is a structure that can resist the force of waves and currents, helping to minimize their impact on the coast and the mainland (Le et al., 2022).The relationship between sea dikes and mangrove forests is complex and interactive (Alongi 2014;Barbier 2016).In many cases, sea dikes are built to protect the mainland from erosion and abrasion, which can negatively impact mangrove forests.This can happen when a sea dike interrupts the flow of water and nutrients from the river into the mangrove forest.The mangrove forest's trees may not receive the necessary nutrients and water to grow and may die (Balke et al. 2011).However, if designed and constructed correctly, a coastal dike can support the development of mangrove forests.Coastal dikes can help create ideal ecological conditions for mangrove forests by maintaining the necessary amount of water for forest development and protecting the forest from the negative impacts of waves and storms (Whitehead et al 1997).In addition, mangrove forests can also help protect coastal dikes from erosion and shoreline retreat.Mangrove forests can retain sand, soil, and nutrients, reducing coastal erosion.At the same time, mangrove forests provide a habitat for plant and animal species, helping to create biodiversity and protect the coastal environment (Sarker et al 2021).
The two provinces of Kien Giang and Ca Mau are located in the West Sea.In recent years, along the coast of this region, erosion of the coast and sea dykes has been profound, with a total length of 300 km, ranging from Rach Cheo, Phu Tan district (Ca Mau)  4 parameters into erosion levels in a month per year made of erosion from minor to extreme impacts to mangrove forest, the coast, and sea dykes in Kien Giang and Ca Mau provinces.The study result will be a picture total of the forest and erosion status of the beach and dykes of Kien Giang and Ca Mau.This research finds out measures to protect the coast and dykes, including forest development, are necessary for the condition of climate change and sea level rise at present.

MATERIAL AND METHODS
There are 18 sample plots for testing, including Ha Tien, Kien Luong, Hon Dat, An Bien, An Minh (Kien Giang), and U Minh (Ca Mau), each consisting of three plots.The map also includes 68 survey plots that are predefined and used as a basis for positioning in the field.
Additionally, there are 96 measuring plots, with each zone having three plots and a measuring plot area of 100 m².The measurement indicators include tree species identification, diameter at 1.3m above the ground (D1.3), the height of the tree canopy (Hvn), average canopy diameter measured in the east-west and south-north directions, and a quality rating of the trees on a 5point scale ranging from 1 (dead tree) to 2 (lost canopy), 3 (normal growth), 4 (good tree) and 5 (strong growth).The forest is classified into five levels based on erosion risk, ranging from F1 (no erosion) to F2 (small erosion), F2 (medium erosion), F4 (dangerous erosion), and F5 (very dangerous erosion).
The forest's classification is based on several factors, including the current status of the mangrove forest, density calculations, canopy height, tree trunk size, and ground cover.The difference between the tallest and shortest tree height is denoted by (fh), while the difference between the largest and smallest trunk size at 1.3m is denoted by (fd).The largest and smallest canopy diameter difference is represented by (fc), and the difference between the highest and lowest tree density per hectare is denoted by (fn).Finally, the difference between the largest and smallest forest canopy area per hectare is characterized by (fs).The overall indicator is calculated as F = (fh + fd + fc + fn + fs) / n, where n is 5 in this case.These indicators help assess the forest's condition and level of erosion risk.

CHARACTERISTICS OF MANGROVE FORESTS
The Ha Tien section, located in My Duc, Ha Tien city, has a plot size of 100 square meters with a tree density ranging from 63 to 99 trees.In addition, there is a protection forest band extending from 50 to 100 meters, and the height of the forest ranges from 3.  The Kien Luong section, spanning from Ta Sang, Duong Hoa to Rach Dung, Binh Tri, has a variable tree density ranging from 16 to 105 trees per plot.The height of the trees in this section ranges from 3.67 to 8.77 meters, and the diameter of the tree trunks measured 1.3 meters from the ground varies from 4.17 to 13.26 centimeters across different locations.The canopy diameter of the trees ranges from 1.35 to 4.62 meters, and the cross-sectional area of the tree canopy in the plot ranges from 1.43 to 16.76 square meters.The plot's canopy area covered by the trees ranges from 67 to 241 square meters, as shown in Table 2.This data provides valuable The area of Hon Dat, spanning from Binh Giang to My Lam, has a tree density ranging from 11 to 93 trees per 100 square meters in the plot.The protection forest band ranges from 0 to 35 meters, and the forest height varies from 5.54 to 9.04 meters.The diameter of the tree trunks measured at 1.3 meters above the ground ranges from 5.76 to 17.90 centimeters.The canopy diameter of the trees varies from 1.63 to 5.56 meters, and the cross-sectional area of the tree canopy ranges from 2.09 to 24.28 square meters.The total canopy cross-sectional area of the trees in the plots ranges from 147 to 557 square meters, as shown in Tables 3 and 4.  7 is essential to forest management in protecting against soil erosion, landslides, and other natural hazards.The information provided in the tables can be used to evaluate the ecological value of the forest and guide management practices for sustainable forest use and conservation.

Table 4
Classification of landslide risk for Hon Dat to forest situation The An Bien section, spanning from 3 Bien in Nam Yen commune to Xeo Quao in Nam Thai commune, has a tree density in plots ranging from 12 to 46 trees per 100 square meters.
The protection forest band in this section ranges from 30 to 200 meters, and the forest height varies from 4.73 to 13.50 meters.The diameter of the trees measured at 1.3 meters above the ground ranges from 4.93 to 21.09 centimeters.The canopy diameter of the trees varies from 1.45 to 4.45 meters, and the cross-sectional area of the tree canopy ranges from 1.65 to 15.55 square meters.The total cross-sectional area of the tree canopy in the plots ranges from 45 to 363 square meters, as shown in Tables 5 and 6.This information provides valuable insights into the composition and characteristics of the forest in the An Bien section.The tree density, height, and diameter measurements can help estimate the forest's overall biomass and carbon storage potential.The tree canopy size and cross-sectional area can also be used to estimate the forest's contribution to the local hydrological cycle, such as through interception and evapotranspiration.Moreover, the protection forest band is essential to forest management in protecting against soil erosion, landslides, and other natural hazards.The information provided in the tables can be used to evaluate the ecological value of the forest and guide management practices for sustainable forest use and conservation.Accoringly, F1: N(96) + H(13) + D1.3(19) + Dc(5) + Gc(22) + Gc/plot(506) + Rd(272), F2: N(76) + H(11) + D1,3(16) + Dt(4) + Gt(17) + Gc/plot(403) + Rd(215), F3: N(58) + H(9) + D1.3(13) + Dc(3) + Gc(13) + Gc/plot(301) + Rd(157), F4: N(39) + H(7) + D1,3(9) + Dc(2.5) + Gc(8) + Gc/plot(199) + Rd(100), F5: N(20)+H(5) + D1.3(6) + Dc(1,8) + Gc(3.5) + Gc/plot(96) + Rd( 43) with F1 = 1+1+1+1+1+1+1/7 = 1 , F2 = 0.80 + 0.84 + 0.83 + 0,.3 + 0.79 + 0.80 + 0.79 = 0.79, F3 = 0.61 + 0.69 + 0.65 + 0.67 + 0.59 + 0.59 + 0.58 = 0.63, F4 = 0.41 + 0.53 + 0.48 + 0.44 + 0.37 + 0.39 + 0.37 = 0.42, and F5 = 0.21 + 0.37 + 0.30 + 0.25 + 0.17 + 0.19 + 0.16 = 0.24 F1 is a sustainable forest class with no erosion.It has a high density of 96 trees per 100 square meters or 9600 trees per hectare, indicating a rich forest cover.The height of the trees is 13 meters, and the diameter at 1.3 meters is 19 centimeters, suggesting that the trees are healthy and mature.The canopy size of each tree is 22 square meters, and the total canopy coverage of the forest is 506 square meters, which indicates that the forest is dense and provides ample shade.The forest band is 272 meters, meaning that the forest has a wide buffer zone and is well protected from external factors that could cause erosion.Overall, the F1 forest is sustainable with no erosion, and its characteristics demonstrate its ecological richness and health.The density of the forest was 96 trees/100 m 2 (9600 trees/ha), the height of the tree was 13 m, the diameter of the tree at 1.3 was 19 cm, the canopy of the tree was 22 m 2 , the canopy of tree was 506 m 2 , the forest band was 272 m is the no erosion.
F2 is a forest class with low to moderate erosion risk.It has a density of 77 trees per 100 square meters (7700 trees per hectare) with a total canopy coverage of 403 square meters.The forest band is 15 meters.Although there is some level of erosion present, it is considered small.F3 belongs to the medium erosion forest category.The forest density is 58 trees per 100 square meters (5800 trees per hectare), with a height of 9 meters and a diameter of 13 centimeters at 1.3 meters.The canopy of each tree is 13 square meters, and the total canopy F4 is a forest with a high level of erosion.It has a density of 39 trees per 100 square meters (3900 trees per hectare) with a height of 7 meters and a diameter of 1.3 meters of 9 centimeters.The canopy diameter is 2.5 meters with a cross-sectional area of 8 square meters and a total canopy coverage of 199 square meters.The forest band is 100 meters, which is classified as dangerous erosion.
F5 is a forest with a high risk of erosion, with a low density of 20 trees per 100 square meters (2000 trees per hectare).The height of the trees is 5 meters, and the trunk's diameter at 1.3 meters is 6 centimeters.The canopy size of each tree is 1.8 square meters, with a total canopy coverage of 3.5 square meters.The total canopy coverage per plot is 96 square meters, and the forest band is 43 meters.
Kien Giang is a province with a coastline of 205 km that has experienced significant erosion of its mangrove forests.According to mangrove statistics from 1999 to 2006, the area of mangrove forests has increased from 3,936 ha to 5,430 ha (GIZ 2008).Most mangrove forest is found in the An Bien and An Minh districts, with a width ranging from 20 to 500 meters.
However, satellite image analysis in 2012 showed that the remaining mangrove forest in Kien Giang province is only 3,500 hectares with a narrow forest band of 10 meters (GIZ 2012).
Despite the small size, the mangrove forest is home to 27 plant species, with Avicennia being the most dominant species (50%), followed by Sonneratia (19%) and Rhizophora (9%) (

CONCLUSIONS
This study presented information on five distinct forest types characterized by varying levels of erosion indicated by tree density, height, trunk diameter, canopy area, and forest bandwidth.The West Sea of Kien Giang and Ca Mau was also examined, revealing erosion levels that range from negligible to very hazardous.Environmental factors influence erosion rates, which fluctuate between 1 and 5 throughout the year.The report outlines the current erosion status, dividing the area into 28 sub-sections with varying degrees of erosion ranging from minor to severe erosion (level 5).The study provides comprehensive information about the diverse forests and erosion levels in the Kien Giang and Ca Mau areas.Furthermore, it emphasizes the environmental factors that impact erosion rates and presents the current state of erosion in the region.

ACKNOWLEDGMENT
This study was funded by the Ministry of Education and Training under grand number: B2021-TKG.01.

The
Role of Mangrove Forests in The Coast and Dykes West Sea Zone Protection: A Case Study in Kien Giang and Ca Mau Provinces ___________________________________________________________________________ Rev. Gest.Soc.Ambient.| Miami | v.18.n.5 | p.1-14 | e05391 | 2024.

The
Role of Mangrove Forests in The Coast and Dykes West Sea Zone Protection: A Case Study in Kien Giang and Ca Mau Provinces ___________________________________________________________________________ Rev. Gest.Soc.Ambient.| Miami | v.18.n.5 | p.1-14 | e05391 | 2024.11 coverage in the plot is 301 square meters.The forest band is 157 meters, indicating a moderate level of erosion.
___________________________________________________________________________ Rev. Gest.Soc.Ambient.| Miami | v.18.n.5 | p.1-14 | e05391 | 2024.12 Kien Giang province has experienced significant erosion along its coastline, with a total length of 64.37 km affected.According to the Kien Giang Department of Agriculture and Rural Development (2020), 31.21km of the coastline has already eroded, with 21.91 km classified as dangerous.Specifically, the areas of Kim Qui, An Bien, An Minh, Hon Dat, and Tieu Dua-Chu Vang (An Minh) have experienced hazardous erosion.The section of the coastline at Binh Giang (Hon Dat) is particularly affected, with a length of 4 km classified as dangerous.With a distance of 154 km, Ca Mau has over 80% of its size eroded.Through monitoring (GIZ KienGiang 2012; Kien Giang Protection Forest Management Board 2020), the average landslide speed is 20 -25 m / year, up to 50 m /year in some locations.The west coast of Ca Mau eroded wass 57 km, with many sections, not forest; the forest band is thinning.Currently, eroded is more dangerous, the protection disappears, and the dyke of the sea is threatened by big waves and high winds.The risk of broken dyke, especially in the rainy season, the southwest wind, and the high tide.
Role of Mangrove Forests in The Coast and Dykes West Sea Zone Protection: A Case Study in Kien Giang and Ca Mau Provinces The ___________________________________________________________________________ Rev. Gest.Soc.Ambient.| Miami | v.18.n.5 | p.1-14 | e05391 | 2024.

Table 1 .
67 to 8.77 meters.The diameter of the trees (measured at 1.3 meters above the ground) ranges from 4.17 to 13.26 centimeters.The canopy diameter of the trees ranges from 1.35 to 4.62 meters, and the tree canopy cross-sectional area ranges from 1.43 to 16.76 square meters.The surface area covered by the tree canopy in the plot ranges from 67 to 240 square meters, as shown in This information provides insight into the composition and characteristics of the forest in the Ha Tien section.The tree density, canopy size, and cross-sectional area can help estimate the forest's overall biomass and carbon storage potential.The diameter and height measurements can also be used to estimate the age and health of the trees, which are essential factors in forest management and conservation.Overall, this data helps understand the ecological and environmental value of the Ha Tien section and can inform decisions regarding its management and protection.Table 1Typical statical indicators of forests in the Ha Tien -Kien Luong

Table 3
Typical statical indicators of forests in the Hon Dat area

Table 5
Typical statistical indicators of forests in the An Bien area

Table 10
The average classification of erosion risk levels for the West sea region to the situation

Table 11
Calculating the parameter F for the classification of erosion risk for the whole West sea to forest situation Duke et al 2010).Unfortunately, the mangrove forests of Kien Giang province are facing severe erosion, with a total of 69.8 km eroded between 2009 and 2020.Out of this, 35 km is classified as dangerous erosion, with the most affected areas being An Bien (5 km), Kien Luong (3 km), Hon Dat (7 km), and An Minh (20 km).On average, the province experiences 20 km of erosion per year, with An Minh district experiencing 20-50 km of erosion over the last ten years, resulting in the loss of 300 ha of forest.Moving from the Tieu Dua canal in Kien Giang to Huong gate in U Minh, Ca Mau, the danger of erosion is 20m/year.From Huong Mai gate to Khanh Hoi, the threat of erosion increases to 50m/year, while from Khanh Hoi to Khanh Binh Tay Bac, the threat reduces to 20m/year.From Khanh Binh Tay Bac gate to Song Doc, the danger increases to 50m/year; from Song Doc to the end of the west coast, the threat of erosion is very great.The province's east coast is experiencing extreme erosion of up to 50 m/year, while the Viet Khai commune section is losing land area at an average rate of 4.73 km2/year.The Role of Mangrove Forests in The Coast and Dykes West Sea Zone Protection: A Case Study in Kien Giang and Ca Mau Provinces