Kelimpahan Mikroalga Epifit Pada Daun Lamun Thalassia hemprichii dan Cymodocea rotundata Di Pulau Sintok Taman Nasional Karimunjawa

IF 0.5 4区地球科学 Q3 Earth and Planetary Sciences Journal of Marine Research Pub Date : 2022-04-23 DOI:10.14710/jmr.v11i2.33855

Desni Elfrida Samosir, Rini Pramesti, Nirwani Soenardjo

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Abstract

Lamun dan epifit merupakan sumber makanan penting bagi banyak organisme di laut. Organisme mikroalga epifit yang menempel pada daun lamun dapat menghalangi nutrien untuk terserap dan menurunkan produktivitas lamun. Tujuan penelitian ini mengkaji jenis - jenis mikroalga, nilai kelimpahan, keanekaragaman, dan indeks mikroalga yang menempel di daun lamun Thalassia. hemprichii dan Cymodocea rotundata di kawasan perairan Pulau Sintok,Karimunjawa. Penelitian ini dilaksanakan pada Bulan November 2019. Lokasi penelitian dengan 3 stasiun dan masing – masing stasiun terbagi menjadi 3 sub stasiun. Metode penelitian menggunakan metode purposive sampling. Perhitungan mikroalga epifit menggunakan Sedgewick Rafter Cell. Hasil penelitian ini ditemukan 17 genus yang terdiri dari kelas Bacillariophyceae 3 genus, Dinophyceae dan 1 genus kelas Cyanophyceae. Kelimpahan mikroalga pada daun lamun T.hemprichii yang tertinggi terdapat pada Stasiun II sebanyak 34.057,81 sel/cm2 diikuti stasiun III sebanyak 18.922,81sel/cm2 dan terendah pada Stasiun I yaitu sebanyak 17.192,98 sel/cm2. Pada daun lamun C. rotundata tertinggi pada Stasiun II sebanyak 11.988,20 sel/cm2 diikuti stasiun III yaitu 9.372,28 sel/cm2dan terendah pada Stasiun I yaitu sebanyak 8.147,39 sel/cm2. Nilai indeks keanekaragaman termasuk dalam kategori sedang, keseragaman termasuk dalam kategori tinggi dan dominansi dalam kategori rendah yang menunjukkan bahwa tidak ada spesies mikroalga dari masing – masing kelas yang mendominasi di perairan tersebut. Seagrasses and epiphytes are important food sources for many organisms. Epiphytic microalgae organisms attached to seagrass leaves can prevent nutrients from being absorbed and reduce the productivity of the seagrass itself. If the main epiphytic predator is not present, there will be an accumulation of epiphytes on the seagrass leaves, also inhibiting its growth. The purpose of this study was to examine the types of microalgae and the abundance, diversity, and dominance values of microalgae that live on the leaf surface of Thalassia seagrass, hemprichii and Cymodocea rotundata in the waters of Sintok Island, Karimunjawa. This research was conducted in November 2019 in the waters of the island of Sintok, each of which has three stations and it’s divided into three sub-stations by purposive sampling method. Epiphytic microalgae were calculated by diluting the samples obtained to be observed under a microscope using the Sedgewick Rafter Cell. The results of this study were found as many as 17 genera of class Bacillariophyceae, three genera of Dinophyceae class and one genus of class Cyanophyceae. The highest abundance of microalgae in the leaves of seagrass T. hemprichii was found at Station II, as many as 34,057.81 cells/cm2, followed by Station III at 18,922.81 cells/cm2 and the lowest at Station I with 17,192.98 cells/cm2. Then the highest seagrass C. rotundata leaf was at Station II, as many as 11,988.20 cells/cm2, followed by Station III, which was 9,372.28 cells/cm2, and the lowest was at Station I as many as 8,147.39 cells/cm2. The diversity index value is in the medium category, uniformity is in the high category, and dominance is in a low category, indicating that no microalgae species from each class dominate in the waters.

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Sintok岛Karimunjawa国家公园海扇藻（Thalassia hemprichii Lamun）和圆斑藻（Cymodocea Roundata）对Epifite微藻的抗性

海草和附生植物是许多海洋生物的重要食物来源。附着在海葵叶子上的表皮藻类微生物可能会阻止营养物质吸收并降低海草的生产力。这项研究的目的是研究附着在海葵叶子上的几种微藻的种类、多肽值、多样性和微藻指数。腰血肿和Cymodocea rotundata分布在卡里蒙加瓦的辛克岛水域地区。这项研究于2019年11月进行。研究地点有三个车站，每个车站分为三个支站。研究方法采用采样方法。附生藻类计算使用Sedgewick Rafter细胞。这项研究发现了17个属，其中包括baciariopceae三属、二属和1属Cyanophyceae类。最大的海葵叶中含有34057.81个细胞/cm2，其次是189222.81个细胞/cm2，第一站为17,192.98个细胞/cm2。在II站中，最大的海带数据叶片为1988.20个细胞/cm2，其次是III站为9372,28个细胞/cm2, I站最低为8,147.39个细胞/cm2。多样性指数的价值属于温和的类别，均匀性属于高类别，低类别表明在水中没有单一的微藻物种。Seagrasses和epiphytes是许多有机食品的重要来源。表皮微生物依附于海草，可以防止营养物质被吸收，减少海洋本身的生产。如果一个主要的附生捕食者不是现在，那么希草叶上的附生捕食者也会抑制它的生长。这项研究的目的是研究生活在地中海贫血海带、血液病和Cymodocea rotundata in The Sintok Island, Karimunjawa。2019年11月，这项研究是在Sintok岛的水域进行的，每一种都有三种不同的stations，并通过采样方法将其分为三种不同的方法。骨科微生物是通过观察观察观察用的是Sedgewick Rafter Cell的微型望远镜进行的。这项研究的结果被发现有17代不计其数的基础，3代不计其数的次级，1属次级cyanopceae。hemprichii在segrass T. hemprichii车站发现了2. 34.057 .81 cells/cm2，跟随第三站18.922 .81 cells/cm2和lowest站，17.192 .98 cells/cm2。然后最大的seagrass leaf是在II站，分别是11,988.20个细胞/cm2，由III站后面跟着，这是9.372 .28细胞/cm2，而lowest在I站，分别是8.147 .39个细胞/cm2。不同的指数是在介质中，统一在高层，而统治在较低的类别中，没有一个微小的物种来自于水中的每一个统治阶层。

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Journal of Marine Research 地学-海洋学

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期刊介绍： The Journal of Marine Research publishes peer-reviewed research articles covering a broad array of topics in physical, biological and chemical oceanography. Articles that deal with processes, as well as those that report significant observations, are welcome. In the area of biology, studies involving coupling between ecological and physical processes are preferred over those that report systematics. Authors benefit from thorough reviews of their manuscripts, where an attempt is made to maximize clarity. The time between submission and publication is kept to a minimum; there is no page charge.