Browsing by Subject "West Bengal"

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Open Access
Apiculture marketing through cooperatives in West Bengal with special reference to South 24 Pargonas and North Dinajpur Districts
(University of North Bengal, 2017) Baidya, Manish; Sen, Bikash Bhusan; Bhuimali, Anil
Open Access
Bank erosion and associated problems in upper mahananda basin in Darjeeling district, West Bengal
(University of North Bengal, 2021) Sarkar, Pompi,; Mandal, D.K.
Open Access
Breastfeeding Practices in Tribal and Caste Population of West Bengal: A Comparative Study
(University of North Bengal, 2016) Mitra, Shreyosi; Ray, Subha
Breastfeeding has typically been studied as a discrete behaviour predicted by biological and social-cultural factors. The objectives of this study were to investigate into the pattern of and understand the knowledge and attitude of breastfeeding practices among the lactating mothers belonging to Bengali Hindu caste (BHC) and tribal groups. A total number of 167 lactating mothers were selected from Bengali Hindu caste population residing in the rural (100) and urban(40) areas of South and North 24 Parganas districts and from the tribal groups residing in rural areas (27) of Purulia district West Bengal. The selection of the study areas and of the participants was done on the basis of operational convenience. Data types include the time of initiation and duration of breastfeeding, the practice of exclusive breastfeeding, feeding colostrums and the knowledge and attitude of the mothers towards breastfeeding. Data on socio-economic information of the participants were taken as additional variable. Data were collected using semi-structured questionnaire. Trend in the results indicate that the practice of exclusive breastfeeding was lower in the Bengali Hindu caste population compared to the tribal population; feeding of colostrums is very common to the tribal mothers but not for their Bengali Hindu caste counterparts. Although the participants from both tribal and Bengali Hindu caste population were aware about the beneficial effect of breastfeeding, yet their attitude towards this behaviour varied widely.
Open Access
Breeding behaviour, Embryonic development and barcoding of the ornamental loaches (cobitidae:cypriniformes) of Terai region of West Bengal, India
(University of North Bengal, 2017) Dey, Arpita; Barat, Sudip Sarkar, Debapriya
Open Access
Causes and effects of flash flood in Alipurduar District, West Bengal
(University of North Bengal, 2023) Biswas, Sanjay; Mandal, D.K.
Throughout human history, hazards have been a recurring occurrence, and it is widely recognized that we cannot completely eliminate their existence. This is especially true for natural hazards, as they are beyond our control. However, while we may not be able to prevent these events from happening, we can take measures to mitigate their impact and prevent them from escalating into catastrophic disasters through efficient planning and preparedness. Among the multitude of disasters, flash floods stand out as particularly devastating on a global scale. These events have the potential to escalate rapidly and inflict widespread damage in a very short span of time. Flash floods have posed a significant threat to Alipurduar District, earning it the reputation of being a flash flood-prone area. This study provides an overview of the factors contributing to flash floods in the District, their impact on the local ecosystem and socio-economy, and potential measures to mitigate the damage caused by these natural disasters. The region's diverse topography directly influences the severity of flash floods, with the hilly areas and foothills in the north of Alipurduar District being particularly susceptible. The rivers originating from the Bhutan Himalayas play a crucial role in triggering sudden slope changes and heavy rainfall, carrying substantial amounts of water, sand, and stones through the District. When these rivers reach the foothill areas, they deposit excess materials, elevating the riverbeds and causing sporadic flash floods during the monsoon season. Human activities such as mining, quarrying, and deforestation further exacerbate the impact of flash floods, disrupting the natural balance and increasing the District's vulnerability. Over the past few decades, numerous flash flood incidents have occurred, predominantly affecting the foothill areas in the north of the District. This research aims to shed light on the causes of flash floods in Alipurduar District and explore potential mitigation methods. The study delves into the relationship between flash floods and heavy rainfall, drainage systems, topography, human influence, and the elevation of riverbeds. Additionally, the research highlights the extensive impact of flash floods on human and livestock casualties, river course alterations, water quality, ecosystems, cultivation, forests, tea gardens, and the socio-economic condition of the District. The thesis is divided into eight chapters. The introductory chapter (Chapter I) provides an overview of flash floods, the study area, research objectives, the database and methodology employed, statement of the problem, and the significance of the study. Chapter II offers a brief description of the physical and cultural characteristics of Alipurduar District, covering topography, geology, climate, natural vegetation, drainage systems, population resources, and tea gardens. Chapter III discusses the drainage system of Alipurduar District in detail. This chapter provides detailed information about several small rivers in the study area. Source, course details, total catchment area and total length of each river are determined. Basically, the detailed information about the rivers has been presented with the help of long term field observation experience and Google earth. In this chapter river bank erosion sites are identified through field observation and discussed through photographs. The morphological characteristics of the rivers in the study area are discussed in details. Morphological features like alluvial fan, braided channel, meander, ox-bow-lake, point bar, sand bar, river island etc. are identified and discussed. Finally, in this chapter, the channel transformation of various rivers is discussed in details. Chapter IV extensively explores the causes of flash floods in Alipurduar District, with a particular emphasis on rainfall data. Rainfall data for the last 30-35 years has been reviewed in detail by collecting data from CWC, Irrigation and Waterways Department, Tea Gardens and Govt. agricultural farms. Each flash flood that has occurred in the study area, is discussed with evidence by collecting newspaper cuttings. The causes and damages of flash floods of 1993, 1998, 2000, 2004, 2007, 2010, 2014 and 2017 are highlighted. A separate household survey was conducted to discuss the causes of the 1993 flash flood. Data regarding the date and years of flash flood was collected from the clock offices and the cause of flash flood was discussed. The relationship of rivers with slope is discussed to determine the extent to which topography is responsible for flash floods in Alipurduar District. Field observations and photographs were collected as evidence to determine the extent to which river projects and construction barriers were responsible for flash floods. The details of the quarrying of various rivers in the study area have been discussed. The impact of upper catchment area dolomite mining on flash floods is discussed. During the field observations various photographs were collected to know the impact of mining and quarrying activities on flash floods. Chapter V examines the nature of flash floods in Alipurduar District, including flash flood frequency, flash flood magnitude index, duration of flash floods, and a historical overview of flash flood events. The discussion of this chapter is mainly based on CWC’s discharge data, water level data and rainfall data. Recurrence Intervals of three major rivers (Torsa, Raidak-I, Raidak- II) of Alipurduar District are discussed to obtain information about the frequency of flash floods. Generally, the effect of flash flood is seen in the whole District mainly after 2-3 years. However, flash flood occurs every year in Ballalguri, Totopara, Jamtala, Bandapani, Jayanti, Mechpara, Radhrani, Chuapara, Hatipota etc. In the northern foothill areas of Alipurduar District, flash flood water mainly stays for 2-3 hours, but in the southern plains it stays for 12-36 hours. On the basis of flash flood susceptibility, Alipurduar District has been divided into four parts and discussed about them in details. Flash Flood Magnitude Index (FFMI) of Torsa, Raidak-I and Raidak-II Rivers have been determined through discharge data. From the information of the District Disaster Management Plan, it has been seen that in this District, Madarihat-Birpara, Kalchini and Kumargram block are the most flash flood prone. Data of Qmax and water level of 1993, 1998, 2000, 2007, 2010 and 2017 were reviewed to know the nature of flash flood in details. Chapter VI, considered the core of the research, focuses on the effects of flash floods in the District. In this chapter, a household survey was conducted on 860 households to know the various effects of flash flood in Alipurduar District. Based on that, it has been possible to bring out various information. Data on human life lost in 1993 was collected through CWC integrated data book, newspaper cuttings as well as household survey. The mainstay of Alipurduar District’s economy is the tea industry. Naturally, the effect of flash flood is more on the tea gardens. The effect of flash flood of last 30-35 years on tea plantations has been discussed through the data obtained from Dooars Branch Indian Tea Association (DBITA). Tea gardens affected by flash flood have been identified through field observations and maps have been made with the help of Google earth and ArcGIS software. Information about the effect of flash flood on forest has been collected and discussed through field survey. Photographs of tea gardens and forests affected by flash flood in different years were collected during direct field observation. Some secondary data regarding flash flood affected forests were collected from different secondary sources. The impact of flash floods on crop pattern change in the northern part of the study area is discussed in detail. Information on flash flood affected construction and property loss across the District has been presented. Photographs of flash flood affected constructions and properties have been collected through field observations. This chapter discussed the effect of flash floods on soil properties. The water of various rivers of Alipurduar District is being affected for dolomite mining and in-stream quarrying. Water samples have been collected and tested from different rivers to provide detailed information on this matter. The Water Quality Index (WQI) table is created based on the weighted Arithmetic Water Quality Index (WAWQI) method. To collect data on river bed rising in the study area, river bed elevation has been measured regularly in different rivers during Pre-monsoon and Post-Monsoon periods for the last 6-7 years. Data and photographs of river bank failure in different parts of the District due to the effect of flash flood have been collected and discussed. Field observation was done and photographs were collected to know about the river valley enlargement. River channel transformation due to flash floods is also discussed. Finally, this chapter briefly discusses the positive effects of flash floods. Chapter VII outlines proposed remedial measures for flash floods in the study area, identifying vulnerable zones and rivers, and suggesting strategies and measures to mitigate the effects of flash floods. In this chapter, the guidelines given by WHO regarding flash floods have been discussed in detail. During the field observation, it was observed that the presence of forest in the foothill regions of the northern part of Alipurduar District has been able to resist the intensity of flash floods to a great extent. Hence the importance of forest in flash flood prevention is discussed in detail with photographs. Uses of local available materials (Sand, boulder, bamboo, bad materials, etc.) also discussed with photographic evidences. Finally, Chapter VIII presents the major findings of the research and offers a comprehensive conclusion. Finally, this research contributes to understanding the causes and impacts of flash floods in Alipurduar District. It provides insights into the vulnerabilities of the region and proposes potential solutions to minimize the devastating effects of flash floods. By addressing the various aspects discussed in this study, stakeholders can work towards building a more resilient Alipurduar District in the face of flash flood events.
Open Access
Changes in agricultural land use scenario in Uttar Dinajpur District, West Bengal
(University of North Bengal, 2021) Sarkar, Goutam ,; Mandal, D.K,
Open Access
Congress in the politics of West Bengal : from dominance to marginality (1947-1977)
(University of North Bengal, 2017) Bala, Babulal; Sarkar, Ichhimuddin
Open Access
Contradiction and Negotiation: New Economic Policy and Industrial Policy Transition in West Bengal, 1987 – 2000
(University of North Bengal, 2022-03) Das, Abhinandan
India’s transition in 1991 to a regime of ‘structural adjustment’ is a watershed in the post-independence Indian economy. As an effect of this New Economic Policy (NEP), the traditional and indigenous industries were exposed to a severe crisis. In West Bengal, the impact of NEP onslaught was greater. In West Bengal the situation became even worse in respect of the industries, both in the private and public sectors, which had already started becoming sick for various reasons, including lack of investment, old machineries, managerial inefficiency and lack of ability to withstand competition in the market. Initially, the NEP faced massive mass opposition mobilised by the left-wing parties, but later the Left Front government adopted its own policy to revive the stagnating industrial condition of the state. This article attempts to analyse this policy transition and its impact on industries in West Bengal from 1987-2000.
Open Access
Cytogenetic Divergence in the Indian Pygmy Field Mice Mus terricolor, Blyth of The Dooars and Terai regions of West Bengal
(University of North Bengal, 2013) Rudra, Mahua; Min, Bahadur
The Indian pygmy field mouse Mus terricolor, a chromosomal complex, is the indigenous Mus species of India with chromosome complement, 2n=40. It consists of three distinct karyotypic forms which are designated as Mus terricolor chromosome types I, II and III due to presence of variable number of heterochromatic short arms in homozygous condition. However, all the three chromosomal types invariably possess a large submetacentric X and large acrocentric Y chromosomes. In the light of karyotype divergence with respect to constitutive heterochromatin, only a limited work has been done in this species based on molecular techniques. Therefore, due to lack of substantial data the position of the Indian pygmy field mice is still in controversy in the phylogenetic relationship of the genus Mus. In the present study, a multidimensional investigation based on chromosomal, allozyme and mitochondrial DNA analyses have been carried out on ten populations of M. terricolor from Terai and the Dooars regions of West Bengal, India. The M. terricolor specimens were collected from Alipurduar (APD), Rahimabad (RBD), Kumargram (KGM), Cooch Behar (CBH), Maynaguri (MNG), Malbazar (MLB) and Nagrakata (NGK) in the Dooars and Naxalbari (NXL), Bidhan Nagar (BDN) and Garidhura (GDH) in Terai. The populations were designated with three letter abbreviation based on the place of collection shown in parentheses. A total of 1600 specimens were collected from ten populations and were chromosomally analysed to confirm the karyotype. Chromosomes in the karyotype have been grouped into A,B,C and D. Out of 1600 specimens, 12 were Mus booduga and rest of the specimens were found to be M. terricolor type I. Cytogenetic Study Heterochromatin and C-banding Cytogenetic analyses using C and NOR-banding techniques showed intra and interpopulation variation of C-positive heterochromatin and Ag-NORs. Centromere of autosomes, short arm and distal telomere of X-chromosomes and the entire Y were found to be C-banded. Variations have been recorded in the size of the C-band positive centromeric heterochromatin ranging from very large to minute and even absent in some cases. Very large blocks of centromeric C-bands were found in few D group chromosomes either in homozygous or in heterozygous condition in all populations. Individuals of BDN, GDH, MLB, NGK and MNG had large blocks of centromeric heterochromatin in most of the autosomes, while NXL, RBD, APD, KGM and CBH populations have prominent large blocks of C-bands in few autosomes only. A few autosomes in RBD, MLB and NXL populations were found to have hardly detectable centromeric C-bands. In NXL autosome 16 was found to be C-band negative in homozygous condition. Short arm of X-chromosomes revealed intense C-banding in the individuals of RBD, KGM, NGK, CBH and APD populations, whereas, it was faintly stained in individuals of MNG, MLB, NXL and BDN. X-chromosome in one female individual of GDH showed telomeric C- band in heterozygous condition. Interestingly, a few individuals of NXL and BDN showed a discrete localization of heterochromatin on the short arms of X-chromosomes showing segmental localization. The entire Y chromosome was found to be C-banded in all populations with variation in the banding intensity. Besides variation in size of centromeric heterochromatin the results also suggest that M. terricolor has a trend of accumulation of heterochromatin in both autosomes and sex chromosomes which is a recently evolved trait in rodents and specifically in the genus Mus. Intra and inter population variation in size of Cpositive heterochromatin suggests that heterochromatin play a significant role in genetic differentiation and karyotype evolution of these populations. Nucleolar Organizing Regions (NORs) and Ag-NOR banding M. terricolor possesses large number of Ag-NOR sites distributed in different chromosomes. The NOR bands were categorized as major, minor and diffused NORs according to the size of band and characteristic of silver deposition. Major Ag-NORs were found to be present in centromeric or pericentromeric region on most of the autosomes in APD, RBD, in some individuals of NXL and MNG populations. Other populations showed major Ag-NORs on few autosomes only, while it was absent in GDH population. Excessively large and broad Ag-NOR band was found in some individual of RBD and in one individual of NGK in the autosome 9 in heterozygous condition. The minor NOR bands were found to be present only on few pairs of autosomes of APD, KGM, NXL, BDN, and GDH populations, while NGK population consistently showed minor NORs in all autosomes including one individual with excessively large NOR on autosome 9. Other populations showed minor NORs in most of their autosomes except MNG where minor NORs were not detected. Both X and Y chromosomes consistently showed minor NORs in all populations. Diffused NORs were present in most of the autosome in all population except MNG, NGK and RBD. Ag-NOR banding revealed polymorphism both at intra and inter-population level. The intra-population variation showed that the homologs of the pairs differed not only in the deposition of silver but also showed differences in position and number of Ag-NOR sites in the same individual. Though variations exist among populations in distribution of Ag-NORs, however, multichromosomal location of NORs was found to be a common feature in all population. Genetic polymorphism in Mus terricolor Genetic analyses were carried out on ten allozyme/ protein loci, i.e. Alb-1, Prealb-B, Est-5, Trf, LDH-A, LDH-B, Mdh-1, Mod-1, GOT-1 and Idh-1. A total of 30 alleles were delineated for ten loci studied, out of which 15 were found to be shared by all populations in different frequencies and the rest were fixed in one or other populations. The Terai populations showed uniformity in allele frequeny, with a high rate of fixation of specific alleles such as Trfb, Est-5b, Ldh-bf, Mdh-1a and GOT-1b. Genetic polymorphism was estimated based on percent polymorphic loci (P), heterozygosity (H) and effective number of alleles (AE). All populations were highly polymorphic in terms of P ranging from 60 to 100% with slight differences of mean effective number of alleles (AE) between Terai and the Dooars regions. Alb-1, Mdh-1, Mod-1 and Idh-1 showed higher observed heterozygosity (HO) in most of the populations. The mean HO have been found to be spread over a lowest value of 0.2950 ± 0.4020 to a highest value of 0.4917 ± 0.2732. Moreover, Terai populations showed higher mean HO compared to the Dooars populations, however, HO is less than expected in all population except APD. Genetic structure of population was also determined by estimating FST, FIT and FIS values. Mean FST for the Dooars, Terai and total population (Terai and Dooars together) were 0.1552, 0.0295 and 0.1246, respectively which indicates that at least 12% of the total variability of all populations is attributable to divergence between populations. A positive FIT value in the Dooars populations at most of the loci indicated the dominancy of homozygotes, while Terai populations showed excess of heterozygote at least at four loci i.e. Alb-1, Prealb-B, Mdh-1 and Idh-1. FIS, a measure of random mating, was positive for most the loci of Terai and the Dooars populations indicating slight heterozygote deficiency. Gene flow is another factor to measure genetic structure. The average gene flow among different populations of Terai, Dooars and all population (Terai and Dooars together) were estimated to be 8.2197, 1.3607 and 1.7563, respectively. The values revealed that the gene flow is operating but cannot be considered sufficient to homogenize all population. Therefore, variability exists in sufficient degree. Allele frequencies were used to estimate the Nei’s Genetic Identity (I) and Genetic Distance (D). M. terricolor MLB and NGK from Dooars and NXL and BDN of Terai showed 99% and 97.4% similarity (I), respectively. Out of 45 pair wise comparisons, 62% of total I-values were found to be ranging from 0.9 to 1.0, 24.4% were between I values 0.76 to 0.9 and 13% were between 0.61 to 0.75. The genetic distance values ranged from a minimum, D=0.0139 between MLB and NGK to the maximum D=0.5023 between RBD and APD in the Dooars populations, while a minimum D=0.0266 was found between BDN and NXL populations from Terai which was slightly higher than the minimum genetic distance value for Dooars population (D=0.0139). The RBD population showed a lower D values 0.0916 and 0.0940 with two distantly situated populations NXL and BDN, respectively while KGM relatively closer population to RBD showed genetic distance value within the same range, 0.0975 as shown by distantly situated populations. The geographic distances and genetic distances do not show any correlation. Dendrogram based on genetic distance matrices showed three major groups of cluster. The populations MLB, NGK, MNG and CBH formed group I, the populations NXL, BDN and GDH of Terai were clustered in group II and RBD and KGM were in group III. APD appeared as an outgroup. Moreover, a high level of heterozygosity indicating greater genetic polymorphism in the populations of terricolor may be due to different evolutionary factors acting separately or in combination. Study of mitochondrial DNA Control region and flanking tRNA genes of mtDNA were PCR amplified and sequenced for analysis. The total sequences were analysed in two parts i) The sequence spanning 15338-15577 (CR I) is the part of control region comprising Hypervariable Region I (HVR I) with flanking Proline tRNA gene and the intermediate region and ii) The sequence spanning 16132-00066 (CR II) of the control region which contains the part of Hypervariable Region II (HVR II) and the Phenylalanine tRNA gene. The mtDNA sequences representing from all populations of M. terricolor were compared with the mtDNA sequence of M. m. domesticus (#AY172335) as reference. Comparisons were done on the basis of transition, transversion and insertion-deletion. HVR II was found to be more polymorphic than HVR I in terms of base substitution. Transversions were more frequent in interspecific comparison than interpopulation comparison of M. terricolor. In comparisons with other populations of M. terricolor the mtDNA sequence of MLB, NGK and GDH showed a higher rate of transversion type of base substitution, which reflects that these populations are more diverged than other populations. Overall nucleotide diversity (π) ranges from 0.011 to 0.566 among terricolor populations. A comparison between M. m. domesticus and NGK, MLB and GDH populations showed comparatively higher nucleotide diversity, π = 0.494, 0.467, 0.347, respectively. The level of inter population sequence (nucleotide) divergence between Terai and Dooars populations revealed that MLB-NGK and MLB-GDH are highly diverged showing π = 0.566 and 0.428, respectively. Dendrograms were constructed based on mtDNA sequence data using UPGMA, Neighbour joining (NJ) and Maximum Parsimony (MP) methods. Out of the three phylogenetic trees, the tree obtained by UPGMA showed higher bootstrap value for maximum branches than NJ and MP dendrograms and was considered for analysis of the result. The dendrogram revealed that APD was clustered with CBH, a nearby population and the RBD with BDN, geographically distant populations with a high bootstrap value of 75%. NGK and MLB appeared as out groups. The clustering of populations based on mtDNA showed limited concordance between dendrograms and geographical distance. This discontinuity in the distribution of mtDNA may be explained in terms of ancestral polymorphism and gene flow.
Open Access
Deforestation: Issues and Impacts on Agriculture- an Ethnographic Study in the village Chirudih, Purulia, West Bengal
(University of North Bengal, 2015) Ray, Bedprakash
Open Access
Effectiveness of digital marketing in attracting tourists in national parks of West Bengal : An empirical study
(University of North Bengal, 2023) Saha, Mukesh; Bhattacharya, Debasis
Tourist Satisfaction is one of the crucial aspects of any National park operator inviting mass tourists to their destinations. This study explores the website dimensions of National parks and tour operator websites and examines their effects on Tourists Satisfaction. For this study, the data has been collected from tourists who visited the National park through National park websites or tour operator websites. Convenience sampling has been used to select the places, and a total of 445 responses (369 are from tourists who visited through the National Park website and 76 are from tourists who visited through the tour operator website) have been collected using the snowball sampling method. The study considers demographic parameters such as age, gender, academic qualification, and income to analyse the demographic profile of the National park visitors. The study found that young adults (age groups between 26 and 40) are more inclined towards visiting National parks compared to other age groups. The study findings revealed that males are very keen to visit National parks compared to their female counterparts. Likewise, the study shows that National park visitors are well educated and have knowledge of the Internet and online booking. The National Park visitors fall under the upper middle-class income groups. Multiple regression analysis has been employed to examine the effects of the Website Usefulness (WU), Tangibility (TA), Website Friendliness (WF), and Reliability (REL). Design Quality (DQ) Information Quality (IQ) on Tourists Satisfaction(TS). The scale developed for the study has been adopted from previous literature and modified as per the needs of the study. The scales developed have been tested for reliability and validity, which are prerequisites for any scientific study. The reliability has been studied by employing Cronbach's alpha, which is a widely accepted measure for the reliability coefficient. This study reveals that the reliability values are quite acceptable in the sense that they are higher than the threshold level. To test the content and construct validity, a factor analysis is employed to examine the factor structure. The KMO values suggest that the fit of the model is adequate, as revealed by the Chi-Square value, which is significant beyond p<0.000. The constuct validity is established by the fact that the dimensions emerged quite distinct and there is no overlap among the various dimensions. The study's findings from data collected from tourists visiting the National Park website revealed that the Website Usefulness (WU). Tangibility (TA), Website Friendliness (WF). Reliability (REL), Design Quality (DQ) affect Tourists' Satisfaction (TS). The study has observed that the Website Usefulness (WU) of the National park website has a more substantial influence on Tourists' Satisfaction (due to the highest beta coefficient β = 0.377) followed by the other dimensions such as Tangibility (TA), Website Friendliness (WF), Reliability (REL), and Design Quality (DQ), based on their respective beta coefficients [(β=0.212, β=0.094, β=0.086, β=0.082)] on Tourist's Satisfaction (TS). However, Information Quality (IQ) does not influence the tourists satisfaction. Whereas findings of data collected from tourists visiting tour operators websites revealed that the Website Friendliness (WF), Website Usefulness (WU), Reliability (REL) affects Tourists Satisfaction (TS). The study has observed that the Website Friendliness (WF) has the greatest beta value (β = 0.334). compared to the other website aspects. Thus, the study revealed that the Website Friendliness (WF) aspect of National park websites has a more significant impact on Tourists Satisfaction (TS). The effects of National park website aspects including Website Usefulness (WU) and Reliability (REL) on Tourists Satisfaction are also found to be significant, with respective beta coefficients of 0.329, and 0.204. However, Tangibility (TA), Design Quality (DQ), and Information Quality (IQ) does not influence the Tourists Satisfaction. The findings of this study will help National park operators and tour operators understand the various dimensions of a National park website and tour operator's website. Moreover, the study's results will allow them to strategically focus on the relative importance of National park website and tour operator's website dimensions to satisfy tourists. The website media content providers will be able to know the various factors influencing tourists satisfaction, and they will develop their content so that it influences tourists satisfaction. Also, the findings of the study will enable operators of National parks and Tour operators to strategically concentrate on the relative significance of website dimensions to please tourists. This study provides a model for accessing tourists satisfaction based on the website dimensions of National parks and tour operators. However, this study has some limitations. The study considers only the West Bengal State National Park website and only seven website dimensions for the National Park and tour operator. Therefore, the study can be extended by an upcoming researcher by incorporating other National Park websites across the nation. In addition, other website dimensions of National Parks and tour operators can be accommodated to extend this research. The study findings will help National park managers understand the impact of various website dimensions on tourist satisfaction. In addition, this study provides useful information to tour operators to make their tourists satisfied. Key Words: Tourists Satisfaction (TS), Website Usefulness (WU), Tangibility (TA), Website Friendliness (WF), Reliability (REL), Design Quality (DQ), and Information Quality (IQ)
Open Access
Effects of terrain characteristics on land use land cover in sanka river basin (West Bengal and Jharkhand)
(University of North Bengal, 2021) Biswas, Baidurya; Saha, Snehasish
Open Access
EMPLOYMENT GUARANTEE AND RURAL POOR : Reflections from West Bengal
(Reliance Publishing House, 2021) Laha, Sidhartha Sankar
Open Access
Enquiry into the causes and consequences of rural urban migration in West Bengal with special reference to Coochbehar District
(University of North Bengal, 2022-11) Majumdar, Sujit; Bagchi, Kanak Kanti
Open Access
Experimental Farming of Cucurbita moschata Duchesne – An Exotic pumpkin at NBU Medicinal Plant Garden
(University of North Bengal, 2023) Mondal, Sujit; Basu, S.K.; Chowdhury, Monoranjan
Cucurbita moschata Duchesne (Butter Squash) is a high food value exotic vegetable of Cucurbitaceae with its origin in Columbia, South America. It is widely cultivated in South America, Central America and some of the Asian countries and Australia, and consumed as cooked or raw vegetable. This crop is notably promising with high yield and low cost of production. It is close to Pumpkin (Cucurbita maxima Duchesne) which is largely grown in India, particularly in Bengal as an important vegetable for preparing curries. There is no report of introduction and cultivation of Butter Squash in Bengal. An experimental cultivation plot was set up in the nursery of NBU medicinal plant garden when some seeds were obtained from England for experimental cultivation.
Open Access
Geographical analysis of urban growth in Siliguri planning area, West Bengal
(University of North Bengal, 2023) Saha, Arjun; Roy, Ranjan
Title: A Geospatial Analysis of Urban Growth in Siliguri Planning Area, West Bengal Introduction: Urban growth is a universal phenomenon. It takes place in almost all the cities in the world. In developed countries, this growth had taken place much before than the developing and underdeveloped countries respectively. In developed countries, this has been taken place in a planned and efficient way, whereas in the developing and underdeveloped countries, it does not follow any rules and regulations, though in maximum cities of developing world there has some certain rules. Due to this unplanned nature of growth of urban built-up features, several productive lands that surround the city are going to extinct which creates an adverse effect on that city. India is a country which falls still in the developing world is facing this same situation in many cities. Some megacities which lie at the top of the table are comparatively follow better regulations and extending themselves in a sustainable way, but maximum cities which have an great economic importance in the country does not follow those rules. Growths in these cities are taking place due to the excessive increase of population mainly for the migration from rural areas primarily for better economic opportunities. Siliguri is a city that lies in the northern part of West Bengal is facing this same problem after its formation. From the beginning this area had been exploited for different purposes and besides this, as this urban centre playing a role of primate city for the entire North Bengal after independence, maximum people had shifted to this place for better livelihood, which makes the growth in a faster rate comparing to other. This faster growth of population and simultaneously urban built-up often captures the productive lands, like forests and agricultural land that surround this city in all sides. So, for this reason, this city with its surrounding area, known as Siliguri Planning Area (SPA) that demarcated by Siliguri Jalpaiguri Development Authority (SJDA) has been taken to find out the land use and land cover changes from 1992 to 2021, to identify the growth of urban built-up in this region, to identify the sustainably suitable places for new development, to analyze the relation between infrastructural development and urban growth and lastly to identify and analyze the possible problems that are occurring in this area due to unplanned and limitless urban growth. Database and Methodology: For this entire work, researcher has used different secondary data that are openly available in different repositories. For the analysis of land use and land cover and to analyze the urban built-up growth from 1992 to 2021, land surface temperature, vegetation index, Landsat satellite images for the year 1992, 2001, 2011 and 2021 have been used in this work. Beside this, for the identification of suitable places for new built-up development and for the analyze of infrastructural development, Census data of 2001 and 2011, Google earth data, data from different government sources, like department of food supply and distribution, department of mass education extension and library services, govt. of West Bengal, department of posts, govt. of India, Bank master data for West Bengal, etc. have been considered. Primary data has also been collected for the analysis of water quality of major two rivers of this region, Mahananda and Balason from total 17 sites. Beside these, some ground verification data has also been collected from using handheld Global Positioning System. First objective that is land use and land cover change analysis from 1992 to 2021 has been performed by using maximum likelihood classification technique after different processing of images in the GIS platform. Urban growth pattern has been analyzed by taking Shannon’s entropy in two ways; first by direction-wise and second by distance-wise and beside this, trends of urban growth and its speed of expansion has been identified by urban density analysis and Urban Expansion Intensity Index (UEII). Multi-criteria Decision Making (MCDM) and Analytical Hierarchy Process (AHP) has been taken for the identification of new preferable built-up locations. To analyze the relation between different infrastructural facilities and urban built-up growth Borda rule has been used in this work. Unplanned urban growth has some negative impacts on the natural surroundings. For this, in this work, impacts on river water, vegetation and in local temperature have been calculated and identified. Water Quality Index (WQI) has been used to monitor the river water quality, Vegetation index, such as Normalized Difference Vegetation Index (NDVI) has been performed for the vegetation density analysis and Land Surface Temperature (LST) has been used for analysing temperature fluctuation from 1992 to 2021. Different correlations have been performed for the analysis of relation between different indices and parameters. Brief Outline of the Study: This whole work has been completed by making total seven chapters. First chapter has been divided into two sections. Section A mainly deals with the overview of the whole thesis, problem of the statement, objectives that are taken, hypotheses that has been framed, rigorous literature surveys, about the study area, chapter details, scopes and etc. and Section B describes the general characteristics of the study area, like its different socio-physical characteristics. Second chapter is about the land use and land cover (LULC) dynamics in this study area and it has been done from the year 1992 with a ten year interval and up to 2021. Third chapter is the heart of this thesis that deals with the pattern, trends and speed of urban built-up growth in this region. Urban built-up growth has been calculated by using the extracted built-up features from the satellite images from 1992 with a ten year interval and up to 2021. Like this the trend and speed also has been analyzed and calculated from 1992 to 2021. Fourth chapter has tried to identify the perfect or suitable patches of land for new urban built-up area. This has been done using the data for the year 2021. Fifth chapter is about to study the relation between different infrastructural developments that has taken place in this region with population growth. This study has been carried out for the two years due to the availability of the data and these are, 2001 and 2011. Sixth chapter has tried to identify the problems or negative impacts on different parts of the environment due to the unplanned and fast built-up development. Negative impacts on river water, local temperature and on vegetation have been analyzed by using primary and secondary sources. Lastly, seventh chapter has summarized the major findings of this work and also put some remedial suggestions with concluding remarks to overcome different problems that this area has been facing. Major Findings: This study area lies in the piedmont of Darjeeling Himalaya and that is why the overall gradient maintains from the north and north-west to the south and south-eastern portion with an average height is about more than 150 metres. Connectivity is good in this region with three major railway stations and one airport and some national and international highways are also present here. Population growth due to the natural and migration is huge in this whole region. As this area lies in the piedmont of the Darjeeling Himalaya and Terai tract, so this area from very beginning is dominated by different forest cover and as this area was facing huge population growth due to its locational importance, so drastic positive and negative changes in different categories of LULC has been seen. Vegetation cover has been lost about 56 sq. km. from 1992 to 2021. Agricultural land has been changed into built-up land in Chandmuni tea estate area. Built up land has occupied the core zone of this study area almost entirely. A significant growth of built up land has seen along the highways that radiated from the core city centre. In case of built-up pattern, the whole area from the 1992 is showing dispersed pattern of development instead of compact one. Though in the last calculated year, it is moving towards the compact pattern just because for the restrain of available lands. In first three years, Shannon’s entropy value lies close to the logn value and for that it can be said that this area has experienced an urban sprawl that destructs different productive lands. The analysis revealed that the urban growth in Siliguri Planning Area follow a regular radial pattern. Ribbon pattern of sprawl is observed along the highways and leapfrog pattern towards southern and northern direction due to working opportunities, educational facility and because of tea planted areas of the study area. This study has identified that the maximum suitable area for new built-up development has seen in between the 5 km. to 9 km. from the core of the city and after this, suitable area decreases. Very little amount of lands has been identified as highly suitable area that is 4.58 sq. km. that denotes this study area presently stays at its well condition in case of built-up categories. Further construction will harm the nature. This study area is mainly dominated by medium suitable area and mostly lies along the accessible roads. Maximum areas of highly suitable area and moderate suitable areas come from wasteland and the vegetated land has been preserved. The core area that is Siliguri city is highly dominated by different infrastructural facilities with the highest score in both two years from the beginning as this area holds more than half of the population of the total study area. Other old centres like Bagdogra, Bairatisal also shows comparatively better infrastructural condition in this region. Dabgram and Binnaguri that are very close to Siliguri city have shown a higher score of infrastructural facilities. Analysis of water quality reveals that Balason River is much better than the river Mahananda as Balason mainly flows from the outer periphery of the core area and population pressure is much lower than that of river Mahananda. Water quality is worst in the Airview sampling site of Mahananda in both seasons due to the pressure of population and their different activities. It has been seen that, a significant change of river water quality between upstream and urban and also urban and downstream. In the southern portion of the study area a fresh water canal has mixed up with river Mahananda which makes is better quality in the downstream portion. Land surface temperature has been calculated for the year 1992 and 2021 and it has been seen that about 0.5⁰C temperature has risen in the highest temperature. Maximum temperature has been recorded in the core of the study area and this is due to the highest density of population, maximum traffic movements, absence of thick vegetation cover etc. Vegetation density has also been analyzed in this region from 1992 to 2021 by using Normalized Difference Vegetation Index or NDVI. Results reveal that highest value of NDVI was 0.75 in the year 1992 which has reduced in to 0.43 in the year 2021 due to the expansion of impervious surfaces on the study area. Values of NDVI also suggest that in the year 1992, high dense vegetation was there which has come in the medium dense category in the year 2021. Conclusion: Development and destruction goes in the similar way. If any area has seen any major developmental projects then it is obvious that, same place has faced some kind of destruction in the natural environment. Urban built-up growth and successive population growth is now a natural phenomenon and this will happen and increase its magnitude in near future. Developed countries has faced this situation much before than present developing and underdeveloped countries and that is why they had faced different problems in earlier and now they are in a stable condition due to low and even zero population growth. India falls on the developing one and that is why most of the cities in this country are facing tremendous population growth, unplanned urban built-up growth, shortages of suitable lands for new built-up places, and also problems on different parts of natural environment. Siliguri Planning Area is also facing this same problem mainly after the partition at the time of independence. That is why this work has tried to identify the built-up growth, urban sprawling, and different problems of this growth on natural environment, like on water, forest, and also in the local temperature. Overall study in this region reveals that unplanned and haphazard built-up growth and urban sprawling and huge population growth has taken place and due to this local temperature has risen in this area, high dense and thick vegetation cover has almost lost in thirty years, water quality degrades when river enters in the core urban and highly populated area. Outcomes and findings of this study will help to the locals, planners, government officials, policy makers to take necessary and suitable steps for the proper planning and betterment for this area
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