Rapid assessment of Wreathed Hornbill Aceros undulatus (Aves:Bucerotidae) populations and conservation issues in fragmented lowland tropical forests of Arunachal Pradesh, India

 

C. MuraliKrishna ¹, Kuladip Sarma ² & Awadhesh Kumar ³

 

^1,2,3Department of Forestry, North Eastern Regional Institute of Science & Technology (Deemed University), Nirjuli,Papumpare District, Arunachal Pradesh 791109, India

Email: ¹ murali7murali@gmail.com,² kldpsarma306@gmail.com, ³ tpileatus@gmail.com (corresponding author)

 

 

 

 

For images, tables -- click here

 

 

Many species of hornbills are under the threat of extinction because they are specialised with regard to habitat, food and nesting sites.  They play a very important role in the forest ecosystem as seed dispersers (Kinnaird 1998; Whitney & Smith 1998; Kitamura et al. 2008; Balasubramanian et al. 2011).  Nine species of hornbills have been recorded from India, of which five species are recorded from the tropical forests of Arunachal Pradesh (Datta 1998; Selvan 2010).  Among these five species, the Wreathed Hornbill Aceros undulatus, also known as the Bar-pouched Wreathed Hornbill (Images 1 & 2), is threatened by illegal selective logging, habitat encroachment and local hunting pressure in unprotected tropical forestlands in Lower Dibang Valley District of Arunachal Pradesh (Kumar et al. 2011).

The distribution of the A. undulatus ranges from northeastern India, Bangladesh, Bhutan, Brunei Darussalam, Cambodia, Indonesia, Lao People’s Democratic Republic, Malaysia, Myanmar, Thailand and Viet Nam (BirdLife International 2009).  In general, hornbills feed mostly on figs.  However, A. undulatus is more of a generalist frugivorewhen compared with the other species of hornbills such as the Great Pied and Brown Hornbill (Datta & Rawat 2003). Hornbills are widely hunted by the Adi and Idu Mishmi tribals of Arunachal Pradesh for bushmeat.  Hornbill body parts such as beak and feathers are also used in traditional culture as headgear decorations (Solanki et al. 2004; Riba 2012), and parts are even displayed in the houses by the tribal population as trophies (Datta 2002). The local communities of Mehao have a long tradition of hunting which is a major threat to wildlife in the study area (Chetry et al. 2010).  Aceros undulatus is listed as Least Concern under IUCN (BirdLife International 2012) and as Schedule-I species of the Indian Wildlife (Protection) Act (1972) (Anonymous 1994).

The present study tried to assess the current population status and conservation issues of A.undulatus in fragmented lowland tropical forest of Lower Dibang Valley District of Arunachal Pradesh and also to highlight the importance of species conservation.

 

Materials and Methods

Study area: Four sites with fragmented forests were chosen namely Delo (95⁰54’E & 28⁰02’N),Koronu (95⁰55’E & 28⁰01’N), Horupahar (95⁰53’E & 28⁰01’N) and Injunu (95⁰51’E & 28⁰02’N) which lie adjacent to the MehaoWildlife Sanctuary of Lower Dibang Valley District of Arunachal Pradesh (Image 3) with an elevation range between 200–275 m.  The study sites do not have fixed boundaries which made it difficult for us to calculate the area of each study site and all the sites are inhabited.  The fragmented forests of the study area consisted of tropical semievergreen vegetation dominated by tree species such as Neolamarckia cadamba, Ailantus grandis, Bischofia javanica, Duabanga grandiflora, Dipterocarpus macrocarpus, Erythrina suberosa, Ficus sp. anddo not fall under any category of protection.  Adis and Idu Mishmis are the major tribes who dominate the study area and generally cultivate agricultural crops like Mustard Sinapis alba, Maize Zea mays, Ginger Zingiber officinale and Turmeric Curcuma longa for their livelihood, in open fragmented areas which were created after selective logging and habitat encroachment.

Population survey and estimation: The study was conducted from October 2010 to April 2011.  Total count method was employed to conduct rapid population assessment as it is the best method for accessing flock forming birds(Colin et al. 1998; Javed & Rahul 2002).  All the birds found roosting on trees along the trail during the survey were taken into account and flying birds were ignored.  Repeat surveys were conducted on each survey month (October, December 2010 and February, April 2011) for three subsequent days between 05:30–11:00 hrs(Appendix 1).  An assumption was made before conducting the survey: “That the flocks were never recounted on the same day of the survey”.  A total of 62km of distance was covered in all four study sites 14km in Horupahar, 19.5km in Delo, 15km in Koronu and 13.5km in Injunu.  All the individuals of Aceros undulatussighted along the trail were recorded for total flock size as well as tree species on which they were sighted. The flocks sighted were grouped together by placing different flocks of almost same flock size or a same group on consecutive survey days.  In case an area had two or more flocks with the same flock size, then the flocks were placed randomly on the data sheet for population analysis.  The flock size and the number of flocks sighted on each survey were noted and the mean size of the flock and mean flock numbers were calculated at the end of the survey.

Estimation of vegetation parameters: Vegetation analysis was done by counting the number of trees in the trails followed.  A total of nine trails were used for collecting the data.  Trails were laid randomly in the study area and the length of the each trail was maintained constant at 1 km with a width of 20m.  Girth at breast height (GBH) was not recorded during the time of the study as all the flocks that we encountered were observed on the trees having ≤ 150cm GBH, also only large trees above 100cm GBH were left after the clearing of the area for the purpose ofagriculture. Also, we recorded a number of cut stumps in the trails in order to evaluate the illegal logging pressure of the area.  Fig trees that had fallen on the trail were also counted.

Questionnaire survey: A rapid questionnaire survey was employed and 18 people were interviewed in the study sites to get their quick response on the methods of hunting, number of hornbills hunted every season, preferences of hornbill species for hunting and use pattern of hornbill such as for cultural, bushmeator trade.  The survey was conducted mainly during the evenings when the locals were free from work and only men were interviewed in the study as females were never involved in hunting.

 

Results

Population status: We estimated a minimum of 172 individuals of Aceros undulatusin nine flocks during the study (Table 1) in particularly logged and fragmented forest areas. The average flock size was estimated as 19.1±2.6, ranging from 8-38 individuals.

Conservation status: Vegetation and logging: Tree density was highest in Delo (44 trees/km trees followed by Horupahar (40.6 trees/km), Koronu (36.6 trees/km) and Injunu (20.6 trees/km) (Table 2).  Fig tree density was highest in Injunu (3.3 individuals/km) and was lowest in Delo (2 individuals/km). Illegal selective logging was commonly observed in the study area for timber, firewood, house construction materials, etc. Logging was highest in Horupahar (2.4 cut stumps/km) followed by Delo (1.8 cut stumps/km), Koronu(1.7 cut stumps/km) and Injunu (1.5 cut stumps/km) was the least (Table 2; Images 4 & 5).

Hunting: According to the responses drawn from the local people through rapid interviews, overall 50–70 Aceros undulatus are hunted throughout their migratory period, i.e., in winter in the study sites (Table 3) which probably could be an over estimate. The number of hornbills hunted varied in each site ranging from 10–20 individuals.  Most of the hornbills are hunted as a part of sport hunting and the meat of the bird is consumed as food. The hunted hornbill meat was never observed for sale in the local markets as it is usually shared within the family and community.  The gizzard of the hornbill was used in some local medicines for curing stomach disorders.  The feathers and skulls of the birds are used as decorative items in the houses by Idu Mishmis and Adis. Guns are preferred (88%, n=16) over catapults (12%, n=2) by the local people for hunting hornbills due to the high success rate (Image 6).

 

Discussion

Population: We estimated the minimum population as 172 individuals of 9 flocks in the study area.  Though this may not indicate the exact population of the A. undulatusin the given area, still an estimate can be made.  Finding the exact estimates of such nomadic flock forming birds is a difficult task. A. undulatus usually live in huge flocks both in breeding and non-breeding seasons (Kinnaird & O’Brien 2007).  Flock size of upto 1000 individuals of A. undulatuswas also recorded in Thailand’s Khao Yai National Park (Poonswad & Kemp 1993).  However, the small flock size in the study area might be due to unavailability of food resources and hunting.

Effect of logging and fig tree density: The data that we collected during the study was very limited thus drawing assumptions based on it might be difficult to interpret.  Datta (1998) stated that logging does not affect the distribution pattern of the species as they are nomadic in nature.  Our results have also shown the same.  Logging at a rapid phase in the study area has created huge gaps in the vegetation thus the hornbills were easily sighted (Image 7). Rijksen (1978) stated that fig densities determine the hornbill abundance of a given area.  However, fig densities did not have any impact on the species as A. undulatusis a nomadic species and tend to travel large distances between feeding sites and the roosts during the breeding season (Leighton 1986).  Mostly fig trees in the study area were used as roosting sites by the species. At times, observations were made where A. undulatusfed on the figs as well.

 

Conservation issues

Habitat fragmentation leads to accessibility of forest resources and thus facilitates easy hunting of wildlife species (Robinson et al. 1999).  High degree of forest fragmentation due to anthropogenic practices such as selective logging, agricultural practices has deteriorated the forest quality in the present study areas (Image 8).  This led to easy sighting of hornbills for hunters making the species more vulnerable.  Hornbill species are hunted for their casque and feathers (Rohit2008).  Mishmisand Adis usually hunt hornbills for meat and their body parts (skull, feathers, casque, etc.) and these are exhibited as trophies in their living room and also used in decorating their headgear.  Buceros bicornis is the preferred hornbill species over Aceros undulatusfor hunting in Arunachal Pradesh (Datta 2002; Kumar et al. 2011) due to their high demand in the local market for headgear decoration (Image 9).  The beak of B.bicornis is mostly used to decorate the headgear of the Nyishi tribe.  The only reason for targeting A. undulatus in the study area by the tribalsis that, it is the only hornbill species found in the study area.

Based on the responses received from the villagers by comparing the past and present abundance of species, it was evident that A. undulatuspopulation is declining in the area. It may be due to high hunting and habitat loss in the study sites.  Habitat loss was observed due to increasing agricultural practices to cultivate cash crops such as Sinapis alba, Zeamays, Zingiber officinaleand Curcuma longa in the study area (Images 10 & 11).  In addition to agricultural practices, illegal logging of mature trees, which act as roosting sites for A. undulates, were also observed during the study period.  The poor regeneration of plant species in Koronu and the absence of regeneration of the preferred tree species (Ficus sp.) in the other three sites could be the reason for the declining natural seed dispersers.  Kitamura et al. (2008) stated that A. undulatus are primarily scatter dispersers during the day in the moist evergreen forest and act as key stone species for preserving the forest ecosystem.  Balasubramanianet al. (2011) has supported this hypothesis by explaining the role of Indian Grey Hornbill in the regeneration of Santalumalbum in Tamil Nadu, India. Similarly, Whitney & Smith (1998) also stated that hornbill densities in primary and secondary forests of central Africa suggested that they are important agents of seed dispersal in both habitats.  Kinnaird (1998) also explained that the Red Knobbed Hornbills effectively dispersed seeds of several tropical trees thus influencing the initial fate of seeds in the regeneration process of the forests.

Logging and hunting, if continued in the same phase will definitely affect the population of A. undulatus leading to local possible extripation in the near future from the study area.  So, certain measures have to be taken by the forest department and the government by bringing awareness among the local communities explaining to them the importance of hornbills for conservation and preservation of forest ecosystem in addition to ensuring a continuous supply of forest resources to the local inhabitants themselves.  Thus, to conserve the hornbill on a sustainable basis, keeping the feeding and behaviouralecology of A. undulatus in mind, large areas of disturbed and fragmented lowland tropical forests in the study sites have to be restored with tree species which could fulfil the basic needs of the local society as well as wildlife in general and A. undulatus in particular.  A. undulatus are more generalized feeders during the non-breeding season (Datta 2001; Datta& Rawat 2003) and they can survive in human dominated landscape as per the general observations.  Thus, the population of hornbills will stay least affected and will thrive in its migratory habitats in future.

 

 

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