Awareness for Mother Hilsa Conservation in the Breeding Season

Awareness program held for mother hilsa fish by the Department of Fisheries Bangladesh and WorldFish

Health risk estimation of metals bioaccumulated in commercial fish from coastal areas and rivers in Bangladesh

Moumita Saha Bristy a, Kishor Kumar Sarker a, Mohammad Abdul Baki a,*, Shamshad B. Quraishi c, Md Muzammel Hossain a, Arifin Islam b, Md Firoz Khan d,e 

Metal contaminations in commercial fish have become a great public health concern worldwide including Bangladesh. The current study was conducted to provide preliminary evidence of nine metals in three commercially significant fish namely Pampus argenteus, Sardinella longiceps and Tenualosa ilisha collected from four coastal stations- Kuakata, Pathorghata, Cox’s Bazar, and Pirojpur, and eight stations of five rivers- Padma, Meghna, Jamuna, Katcha, and Nobogonga in Bangladesh. High magnitudes of Pb (0.74–4.59 mg/kg ww), Cd (0.07-0.24 mg/kg ww), and Mn (0.45–2.03 mg/kg ww) were recorded in the sampling stations that exceeded the maximum permissible limits (MPL) proposed by different recognized organizations. Significant mean differences of metal concentrations were observed (p < 0.05) between species and stations. In fish samples, excessive metals accumulations were recorded from Kuakata (St.1) at the coastal area, and Nobogonga (St. 12) among the rivers. The health risk assessment (HRA) was carried out comprehensively via the estimated daily intake (EDI), target hazard quotient (THQ), hazard index (HI), and target cancer risk (TR) calculations. The outcomes of EDI, THQ, and HI suggest that chronic exposure to towering Pb content might pose potential health threats to inhabitants particularly living in highly polluted stations of the coastal area. In addition, the massive TR values of Cd intake through fish consumption from the coastal area might create cancer risks. Accordingly, the ingestion of metals contaminated fish portends chronic as well as acute health risks to Bangladeshi people living both at home and abroad.

Source:Environmental Toxicology and Pharmacology, https://doi.org/10.1016/j.etap.2021.103666

National Fish Week 2021

The Ganges, Brahmaputra and Meghna Rivers have direct impact on around 620 million peoples. The rivers face significant issues related to biodiversity loss, navigability and flooding - make worse by the challenges inherent in managing trans boundary ecosystems. Fish spawning grounds in the river should control and monitor through the authority act.

#fisheriesmanagement #fish #riverside #conservation #biodiversity #ecology # #water #environment #rivers #fisheries #livelihoods # #wildlife #nature #climatechange #pollution

River, Life and Livelihood

 

River protection and biodiversity conservation

 

Brahmaputra River, Mymensingh

 

The Brahmaputra, also known as the Yarlung Tsangpo in Tibet, the Siang/Dihang River in Arunachal Pradesh, and Luit, Dilao in Assam, is a trans-boundary river which flows through Tibet, India, and Bangladesh. It is the 9th largest river in the world by discharge, and the 15th longest. It flows some 1,800 miles (2,900 km) from its source in the Himalayas to its confluence with the Ganges (Ganga) River, after which the mingled waters of the two rivers empty into the Bay of Bengal.

 

Gaibanda, the Old Brahmaputra leaves the left bank of the main stream and flows past Jamalpur and Mymensingh to join the Meghna River at Bhairab Bazar.) Before its confluence with the Ganges, the Jamuna receives the combined waters of the Baral, Atrai, and Hurasagar rivers on its right bank and becomes the point of departure of the large Dhaleswari River on its left bank. A tributary of the Dhaleswari, the Buriganga (“Old Ganges”), flows past Dhaka, the capital of Bangladesh, and joins the Meghna River above Munshiganj.

 

Exposure to Dodecamethylcyclohexasiloxane (D6) Affects the Antioxidant Response and Gene Expression of Procambarus clarkii

Md Muzammel Hossain

^1,2,3,

Yuan Yuan

¹,

Hengliang Huang

¹,

Ziwei Wang

¹,

Mohammad Abdul Baki

³,

Zhihua Dai

^1,4,

Muhammad Rizwan

^1,5,

Shuanglian Xiong

¹,

Menghua Cao

¹ and

Shuxin Tu

^1,2,*

Dodecamethylcyclohexasiloxane (D6) is widely used daily in the chemical industry and exists in the environment; however, its eco-toxicity is not well documented. A hydroponic experiment was performed to investigate the effects of D6 exposure (10–1000 mg L⁻¹) on oxidative stress induction and gene expression changes in crayfish (Procambarus clarkii). The results showed that superoxide dismutase (SOD) activity was enhanced by 20–32% at low D6 exposure (10 mg L⁻¹) in muscle but reduced in gill tissue at high D6 exposure (1000 mg L⁻¹). High D6 (1000 mg L⁻¹) also increased catalase (CAT) and peroxidase (POD) activities in muscle tissue by 14–37% and 14–45%, respectively, and the same trend was observed in the carapace and gill tissue of crayfish. The Malondialdehyde (MDA), ascorbate (AsA), and glutathione (GSH) contents were increased by 16–31%, 19–31%, and 21–28% in the muscle of crayfish under D6 exposure. Additionally, silicon (Si) content increased in three organs (gill, carapace, and muscle) of crayfish. Related genes involved in enzyme and nonenzyme activities were detected, and when crayfish was exposed to D6, genes such as Sod3, Cat3, Pod3, and Gsh3 were up-regulated, while Asa3 and Oxido3 were significantly down-regulated in the muscle. The research results help us to understand the toxicity of D6 in crayfish and provide a basis for further research on the mechanism of D6-induced stress in crayfish and other aquatic organisms. View Full-Text

Keywords: silicone; D6; antioxidation; transcriptome; crayfish

Sources: Sustainability 2021, 13(6), 3495; https://doi.org/10.3390/su13063495

 

Silicone stressed response of crayfish (Procambarus clarkii) in antioxidant enzyme activity and related gene expression

Md Muzammel Hossain^aHengliang Huang^aYuan Yuan^aTianyin Wan^aChengfeng Jiang^aZhihua Dai^aShuanglian Xiong^aMenghua Cao^aShuxin Tu^ab

Organosilicon has been widely used in various fields of industry and agriculture due to its excellent properties, such as high and low temperature resistance, flame retardan, insulation, radiation resistance and physiological inertia. However, organosilicon toxicity in aquatic animals is seldom known. In this research, two typical silicone or silane coupling agents (KH-560 (3-Glycidoxypropyltrimethoxysilane) and KH-570 (3-Methacryloxypropyltrimethoxysilane)) were used in a hydroponic experiment to evaluate the effects on survival rate, antioxidant response and gene expression in red swamp crayfish (Procambarus clarkii). Crayfishes were grown in black aquaculture boxes containing different concentrations (0, 10, 100 and 1000 mg L⁻¹) of KH-560 and KH-570 for 72 h, and then crayfish samples were harvested and separated into tissues of carapace, gill and muscle for analysis. The results showed that silicone significantly increased malondialdehyde (MDA) content in muscle by 17%–38% except for the treatment of 100 mg L⁻¹ KH-570, and reduced the survival rate of crayfish. Additionally, silicone KH-570 increased the activities of superoxide dismutase (SOD), catalase (CAT) and peroxidase (POD) by 15%–31%, 17%–35%, and 9%–46%, as well as the contents of ascorbate (AsA) and glutathione (GSH) by 19%–31%, and 23%–29% respectively, in muscle tissue, and similar results occurred in KH-560. In the carapace, however, SOD activity was significantly decreased at high concentrations level of both silicone treatments. Moreover, silicon (Si) content was higher in the abdominal muscle of crayfish after silicone treatment. Assay of gene expression showed an obvious increasing expression of antioxidant related genes (Sod1, Sod2, Cat1, Cat2, and Pod1, Pod2) under silicone stress. The above results suggested that silicone caused an obvious stress response in crayfish in both biochemical and molecular levels.

Sources, Environmental Pollution, Volume 274, 1 April 2021, 115836: https://doi.org/10.1016/j.envpol.2020.115836

Higher Study in China

Congratulations!! Dr. Md Muzammel Hossain for your successful accomplishment Doctor of Philosophy (Ph.D.) degree from Huazhong Agricultural University, Wuhan, China.

As a first graduate student of Department of Zoology (1^st batch), Jagannath University, Dhaka, he was won fully funded CSC Scholarship 2017 under Huazhong Agricultural University, China for his Ph.D. program. He is performing research on chemical toxicity in Crayfish and Rice. As a part of his doctoral research, he has studied on silicon (Si) that is 2nd most abundant element in the earth and focused on crayfish ecology or chemical (typical silicone) ecology research exhibited at physiological, biochemical and molecular levels. Previously, he was also completed research on risk assessment and several research articles internationally. Achieving a doctorate degree is not easy deal. He is learning and sacrificing a lot to earn this. His number of total publication 24.

Dr. Hossain was received M.Sc. (Thesis) degree in 2014 and B.Sc. degree in Zoology in 2012 from Jagannath University, Dhaka. His M.Sc. thesis research grant project entitle was "Inventory of biodiversity in the Buriganga River, Dhaka". After graduation, as a Research Assistant he was also completed two research grant project entitle "Human health risk assessment of heavy metals in tropical fish and shellfish collected from the river Buriganga", and sub-project (CP2216) entitle "Faunal Survey and Enrichment of Facilities for Biodiversity Research” under HEQEP, University Grants Commission and Department of Zoology, University of Dhaka and Jagannath University. Then, few months he served in the Department of Biology, Agricultural University College, BAU, Mymensingh as a lecturer.

His research interests are broad include silicon (Si), organosilicon or silicone polymers, Ecology, Chemical Ecology, Risk Assessment, Toxicology, Antioxidant, Environmental Pollution, Aquatic animal (fish, shellfish and mammal) and plant (rice), Biodiversity, Dolphin Conservation, and Molecular biology etc. To know more about him click.

Jagannath University, Dhaka Inaugurated New Molecular and Environmental Biotechnology Lab.

Vice-Chancellor Prof. Dr. Mizanur Rahman, inaugurated new Molecular and Environmental Biotechnology Lab on February 8, 2021-Monday, in the Department of Genetic Engineering and Biotechnology, Jagannath University, Dhaka .  

At this time, the treasurer said. Kamaluddin Ahmed, Chairman of the Department of Genetic Engineering and Biotechnology. Dilara Islam Sharif, Registrar, Proctor, Director (Finance and Accounts) and other teachers of the department were present. Note that the laboratory was set up with the funding of the Information and Communication Technology Department of the Government of the People's Republic of Bangladesh. In this way, teachers and students will be more pioneers in research in all branches of biology.

 

Happy New Year 2021