{"title":"Seagrass (Enhalus acoroides) Restoration Performance with Two Different Methods (Anchor and Seed) in Panjang Island, Jepara, Indonesia","authors":"Jan Ericson Wismar, Ambariyanto, Widianingsih","doi":"10.20473/jipk.v15i1.35836","DOIUrl":null,"url":null,"abstract":"Highlight Research\n\nSeeds can grow into seagrass seedlings for an optimal period of five weeks\nSeed sowing can be optimized by supplementing nutrients with fertilizers\nThe seedling transplant method, which utilizes seed seedlings, is not significantly different in daily growth from the anchor transplant method, which utilizes donors/seeds transport\nThe biomass content of seagrass leaves can be used to determine the growth rate of the leaves\n\nAbstract\nGlobally, the area of seagrass beds important to the ecosystems in coastal environment is decreasing due to environmental pressures, both natural and artificial. Transplantation is one way to restore the condition of damaged seagrass beds, the anchor transplant method uses the transfer of donor seagrass to the transplant area, while the seed transplant method uses seed sowed from seagrass. This study aimed to investigate the survival and growth rates of seagrass transplants and the biomass and chlorophyll content of transplanted Enhalus acoroides in the waters of Panjang Island Jepara utilizing anchor and seedling methods. The research was conducted in the waters around Panjang Island, Jepara, between September and December 2021. The results indicated that transplantation of seagrass E. acoroides using the anchor method resulted in the highest average growth rate of 0.25 cm/day and a survival rate of 96.67%, while transplantation using the seedling method resulted in a growth rate of 0.18 cm/day and a survival rate of 83.33%. The results showed that the anchor method scored better than the seedling transplantation method in terms of growth rate and survival rate. However, seedling is a feasible method to meet the availability of seeds that will later be transplanted, considering that the anchor method still has shortcomings in terms of the availability of seeds and the use of pegs which are still not environmentally friendly. so that the seedling method can be recommended for the restoration process of seagrass ecosystems by taking into account the season, weather and other important indices.","PeriodicalId":17760,"journal":{"name":"Jurnal Ilmiah Perikanan dan Kelautan","volume":" ","pages":""},"PeriodicalIF":0.0000,"publicationDate":"2023-01-27","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"1","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Jurnal Ilmiah Perikanan dan Kelautan","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.20473/jipk.v15i1.35836","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q4","JCRName":"Agricultural and Biological Sciences","Score":null,"Total":0}
引用次数: 1
Abstract
Highlight Research
Seeds can grow into seagrass seedlings for an optimal period of five weeks
Seed sowing can be optimized by supplementing nutrients with fertilizers
The seedling transplant method, which utilizes seed seedlings, is not significantly different in daily growth from the anchor transplant method, which utilizes donors/seeds transport
The biomass content of seagrass leaves can be used to determine the growth rate of the leaves
Abstract
Globally, the area of seagrass beds important to the ecosystems in coastal environment is decreasing due to environmental pressures, both natural and artificial. Transplantation is one way to restore the condition of damaged seagrass beds, the anchor transplant method uses the transfer of donor seagrass to the transplant area, while the seed transplant method uses seed sowed from seagrass. This study aimed to investigate the survival and growth rates of seagrass transplants and the biomass and chlorophyll content of transplanted Enhalus acoroides in the waters of Panjang Island Jepara utilizing anchor and seedling methods. The research was conducted in the waters around Panjang Island, Jepara, between September and December 2021. The results indicated that transplantation of seagrass E. acoroides using the anchor method resulted in the highest average growth rate of 0.25 cm/day and a survival rate of 96.67%, while transplantation using the seedling method resulted in a growth rate of 0.18 cm/day and a survival rate of 83.33%. The results showed that the anchor method scored better than the seedling transplantation method in terms of growth rate and survival rate. However, seedling is a feasible method to meet the availability of seeds that will later be transplanted, considering that the anchor method still has shortcomings in terms of the availability of seeds and the use of pegs which are still not environmentally friendly. so that the seedling method can be recommended for the restoration process of seagrass ecosystems by taking into account the season, weather and other important indices.
亮点研究种子可以在五周的最佳时间内长成海草幼苗。种子播种可以通过补充肥料的营养物质来优化。利用种子幼苗的幼苗移植方法与锚移植方法在日常生长方面没有显著差异,其利用供体/种子运输海草叶的生物量含量可用于确定树叶的生长速度摘要在全球范围内,由于自然和人工的环境压力,对沿海环境生态系统重要的海草床面积正在减少。移植是恢复受损海草床状况的一种方法,锚移植法使用将供体海草转移到移植区,而种子移植法使用从海草中播种的种子。本研究旨在利用锚和幼苗的方法,研究Panjang Island Jepara水域海草移植的存活率和生长率,以及移植的Enhalus acoroides的生物量和叶绿素含量。这项研究于2021年9月至12月在杰帕拉潘让岛周围水域进行。结果表明,采用锚定法移植的沙棘平均生长速率最高,达0.25cm/天,结果表明,在生长速率和成活率方面,锚定法优于苗移植法。然而,考虑到锚定法在种子的可用性和钉子的使用方面仍然存在不足,因此,幼苗是一种可行的方法,以满足以后移植的种子的可用。从而可以在考虑季节、天气等重要指标的情况下,为海草生态系统的恢复过程推荐育苗方法。