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Research Article | | Peer-Reviewed

Causes, Impacts and Mitigation Measures of Human Large Mammal Conflict in Estie Densa Forest Reserve, Estie District, Northern Ethiopia

Setie Ewnetu*
Published in International Journal of Natural Resource Ecology and Management (Volume 9, Issue 2)
Received: 24 February 2024    Accepted: 13 March 2024    Published: 29 April 2024
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Abstract

Human-wildlife conflict is a significant threat to the continued survival of many species and the livelihood of humans. This study aims to assess the conflict between humans and mammals in Estie Densa Forest Reserve, located in Estie Woreda. Currently, the forest reserve faces many problems like crop damage, disease transmission, livestock depredation, and even loss of human life. So, the study generates general information about human mammals conflict and provides baseline information for other researchers. Selection of 95 respondents from local communities through purposive sampling. The Chi-Square Test was employed to determine the significance of differences across the three Villages, and the results were presented in the form of tables and percentages. Crop raiding and livestock depredation have been proven the primary drivers of human-mammal conflict and are statistically significant among the Villages (P≤0.05). Anibus Baboon, Wild Pig, and Common Jackal were the major drivers of the conflict, and had statistical difference among Villages (P≤0.05). Property Loss, and Wildlife Loss covered more than 91% of the total impact perceived as a result of human mammals conflict, and statistically significant (P≤0.05). Livestock guarding (using dogs and shepherds; 50.52%) was the most efficient approach for alleviating livestock depredation and disease transmission from wildlife to livestock and vice versa. While fencing and crop guarding (35.79%) were second in terms of mitigation, but ranked first in terms of reducing agricultural damage caused by wildlife. There should be better awareness of the value and significance of wild animals, the ecology, tourism, and overall conservation of wild mammals.

Published in International Journal of Natural Resource Ecology and Management (Volume 9, Issue 2)
DOI 10.11648/j.ijnrem.20240902.11
Page(s) 24-33
Creative Commons

This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited.

Copyright

Copyright © The Author(s), 2024. Published by Science Publishing Group
Previous article
Keywords

Conflict, Estie- Densa, Human-Large Mammal, Mitigation

1. Introduction
Human and wildlife conflict threatens species survival and human livelihoods. The world at large is currently dealing with a major issue of HWCand becoming more widespread as human population increases, agricultural expansions & encroachment. People and wildlife become more competitive for resources as a result of human and environmental influences
[26]
.
Human-wildlife conflict (HWC) is prevalent in Africa, where several big wild animals, such as elephants and lions, still move peacefully in marginal rangelands and protected areas. The growing human population has led to encroachment on wildlife habitat, habitat degradation, transforming of land for agricultural use, and other activities that are not compatible with the needs of wildlife
[31]
, measures by human beings or wildlife that negatively affect the other
[7]
, and perceptions and/or attitudes in which people's security, in their health, wealth, and livelihood are at risk from these activities
[29]
.
The conflict between humans and wildlife becomes more extreme in the tropics and in developing countries whose way of life was subsistence farming, in which livestock and cultivating agricultural crops are crucial features of rural people's livelihood and income. The threat of HWCin developing countries remains beside the concern of biodiversity conservation that has become common in Western countries
[16, 10]
. It exists whenever human demands and actions negatively affect those of wildlife and vice versa. It may occur when wildlife damage crops, threaten their life and property, negative attitudes of peoples to wildlife. As human population expand resettlements, cultivation of crops and livestock grazing makes peoples and wildlife engaged in resource rivalry
[24]
.
Conflict between humans and wildlife occurs when one side's actions have a negative impact on the other
[7]
. Human-wildlife conflicts have been reported all over the world in all types of aquatic, terrestrial, and aerial contexts and have had a significant impact on a wide range of animal taxa
[28]
. Primate species and other wild species are ultimately impacted by habitat loss/fragmentation, agricultural development, and human settlement
[11]
.
The conflict between humans and wildlife could result in both direct (death and injury from getting close contact with harmful animals) and indirect effects (agricultural crop destruction, farm animals predation, and infrastructure damage). The primary predators that threaten humans are crocodiles, hippopotamuses, elephants, lions, tigers, and baboons, but mass attacks by birds, big apes, rodents, or insets may quickly destroy agricultural crops as well
[13]
. Despite Ethiopia's ample and distinctive geography and diversity of biodiversity, human activities are causing the nation's natural resources to diminish
[9, 25]
. Animal guarding offers an alternative to herding, which is a labor-intensive, time-consuming, and cost-effective method of reducing conflicts between people and wildlife. But according to Odega et al., the presence of dogs was only associated with reduced lion invasions on cattle and not on sheep or goats
[18]
.
In Estie Densa forest reserve, HWCis a serious problem. The increasing incidence of human-wildlife conflicts poses a threat to biodiversity, human safety, and the livelihoods of communities residing in proximity to wildlife habitats. Tackling the root causes and developing effective mitigation strategies requires a sound understanding of the ecological, social, and economic factors driving this conflict. The researcher is aware of no scientific baseline data about the root causes, impacts, and potential preventative strategies of the conflict in the study area. By analyzing the fundamental facts about the scope of human-wildlife conflict, the research seeks to address a present knowledge silence. So, in the present investigation, HWCwas evaluated in and around the Estie Densa forest reserve in Estie District, Amhara region, northern Ethiopia.
2. Methodology

2.1. Description of the Study Area

Estie-densa Forest Reserve is found in Estie woreda, 665 km far from Addis Ababa. The area is located in the north 11°36' latitude, 38°03' east of longitude and an elevation of 4231m a.s.l (Figure 1). The area is characterized under woyina-dega agro-climatic conditions and the mean annual temperature is about 16.6°C and an annual rainfall ranging between 1308 to 1501 mm
[2]
.
Estie Densa Mountain is a beautiful forest surrounded by green vegetation all year round (Figure 2), about 5km northeast of the capital city of the woreda, Mekane-Eyesus town. It is a breeding and rearing center for a variety of wildlife. This area named a sleeping lion, surrounded by the river Wanka, and has attracted the attention of many spectators and visitors. This tight forest is divided into two kebeles, the Mekane-Eyesus and the Dagut kebeles, with a population of 967 and 667 households respectively, totaling 1654 households
[2]
.

2.2. Sampling Techniques

Based on their closeness, proximity and impacts perceived two kebele’s (namely Dagut and Mekane Eyesus) were selected by using purposive sampling. The reason behind choosing this technique is it provides appropriate data in relation to the objective of human mammals conflict. Representative samples/respondents were taken from two selected kebele’s based on their background experience, knowledge about the issue of human mammals conflict. The respondents were then divided into several strata depending on their occupational background, sex, age, and educational level using stratified sampling. The selection criteria for key informants are the same as those for respondents. Key informants had been involved to strengthen the primary data which are collected from questionnaires and direct field observations. Two from each staff members: forest guards, forest experts and wildlife managers were selected for key-informants to strength the information obtained from primary data.
The targeted two kebeles have the total household of 1,654 (Dagut 657 and Mekane Eyesus kebeles 997). The Slovenes formula was used to calculate sample sizes in order to meet the desired goals
[32, 27]
; error terms ranging from 0.1 to 0.01 were employed. Because of time constraints and a lack of funding, 10% was utilized to determine the study's overall sample size.
n = N= 94.3 ≈ 95 (roundup)
1+ (N×e2) Where n= sample size, N=total population and e= acceptable level of error
So, a total of 95 respondents were taken from the two targeted kebeles; 38 respondents from Dagut and 57 from Mekane Eyesus kebeles were proportionally selected.

2.3. Data Collection

The questionnaire and interviews used in this study were developed and evaluated in three villages close to the study region. Depending on their level of expertise and closeness to the park, both open-ended and closed-ended questionnaires were given to the household members intentionally. Different secondary sources, including books, journals, research reports, magazines, personal diaries, letters, and electronic media like the internet, videos, CD ROMs, broadcast, etc., were used to acquire the data.

2.4. Data Analysis

Using an Excel sheet, the data was organized in order. Tables, frequencies, and percentages were used in the organizing and reporting of the facts for purposes of descriptive statistics. The Chi-square test was used to assess the significance of the data among the three villages after the data were analyzed using the R software.
Figure 1. Study area Map.
Figure 2. Estie Densa forest reserve.
3. Results
In order to assess the problem that leads human mammals conflict: key informant interviews and questionnaires supported by direct field observation were conducted, analyzed and interpreted as follows:

3.1. General Characteristics of Respondents’

Males made up more than half of the respondents, representing 62.1% of all respondents. Males are probably more directly and/or indirectly exposed to the issue of human-mammal conflict and much of the phenomena that take place between males and wild animals, which might be the cause of the conflict. According to the age group, the majority of respondents were adults, accounting for 62.1% of all respondents, with only a few respondents aged 51 and more. According to their educational status, 36 (37.9%) of the respondents were in elementary school, and 85.3% of the 95 respondents were farmers (Table 1).
Table 1. General Demographics of Respondents.

No

Respondents demographics

Respondents

Numbers

Percentages (%)

1

Sex

Male

59

62.1

Female

36

37.9

2

Age category

15-30 year

24

25.3

31-50 year

59

62.1

Above 50 year

12

12.6

3

Educational status

Degree

4

4.2

Diploma

19

20

High school

29

30.5

Primary school

36

37.9

Adult school

2

2.1

Illiterate

5

5.3

4

Occupational Background

Local communities (farmers)

81

85.3

Community elders

5

5.3

Wildlife experts

2

2.1

Forest guards (scouts)

4

4.2

Religious elders

3

3.2

Total

95

100

3.2. Major Causes of Human Mammals Conflict

Mostly, local communities practiced subsistence way of farming and cultivation of crops as a means of their livelihood. The magnitude of crop raiding is much more than those of the others and hundreds of quintals of crops are damaged every year by wild animals. Crop raiding (47.67%) and (28.42%) predation on livestock is the predominant issue that gives rise to human mammals conflict. The conflict is mostly takes place in and around agricultural lands either for the need of grazing of their livestock and cultivation of crops.
Agricultural expansion and human encroachment in to mammals’ habitat (10.53%), is the third main, and clearing of forest area for cultivation of agricultural crops dismisses the natural habitat of mammals. Human populations expand agriculture in large extent, natural habitats of mammals shrinks, and wild mammals and humans become more competitive over food and dwelling space.
Peoples have negative attitudes (4.21%) towards mammals and assumes that living with mammals has always negative effect on their economy, livelihood, property and even dangerous for their lives. They perceived such type of perceptions as a result of greater negative impact on their livelihood from mammals, particularly from large wild carnivores and herbivores without any compensation for property loss to the local farmers from mammals. The main reasons for conflict between humans and mammals varied significantly (2 =25.05, df =10, p ≤ 0.005) among the three targeted categories (Table 2).
Table 2. Root cause of human-wild mammals conflict in Estie Densa Forest Reserve.

Major causes

Villages

Total

2

df

P- Value

Dagut

Gora Dur

Zinjero Meda

Crop Raiding

16.84

22.11

8.42

47.67

25.05

10

0.005

Livestock Depredation

2.11

21.05

5.26

28.42

Agricultural Expansion

4.21

6.32

0

10.53

Grazing Inside Forest

4.21

1.05

2.11

7.37

Negative Attitude

1.05

0

3.16

4.21

Others

0

2.11

0

2.11

Total

28.42

52.63

18.95

100

3.3. Most Problematic Wild Animals

Mammals has caused extensive damage to human properties which include agricultural crops and domestic animals and others like loss of human life. Based on their degree of destruction, the most common and well-known crop raider of the area includes Anibus Baboon (35.79%), Wild Pig (21.05%), Porcupine (11.58%), and others (like Common Duiker, Clip Springer; 2.11%).
Many wild animals are responsible for extensive damages to livestock and the most common includes: Common Jackal (18.95%), Hyena (both Stripped and Spotted Hyena; 10.53%), and others (wild cat, cheetah, leopard etc.). They affect domestic animals throughout the year but mostly become more aggressive especially during rainy season. wild mammals that can triggered the conflict of human wild mammals has a significance difference (2 = 43.58, df = 10, p ≤ 0.001) among villages (Table 3).
Table 3. Most problematic animals of the area.

Problematic Animals

Villages

Total

2

df

P- Value

Dagut

Gora Dur

Zinjero Meda

Anibus Baboon

6.32

15.79

13.68

35.79

43.58

10

0.001

Wild Pig

15.79

5.23

0

21.05

Common Jackal

2.11

14.74

2.11

18.95

Porcupine

4.21

7.37

0

11.58

Hyena

0

7.37

3.16

10.53

Others

0

2.11

0

2.11

Total

28.42

52.63

18.95

100

3.4. Impacts of Human Mammals Conflict

Loss of human property (i.e. livestock depredation and damage of agricultural crops; 50.53%) was the most serious negative impacts of human-wild mammals conflict. Influences of wild animals on people’s properties was the first and prominent causes that results crisis on the local economy, food security and livelihood of locals, and leads to poverty at large and low standard of living.
Many wild animals died (41.06%) as a result of conflict and some of the deaths results due to the revenge attacks by humans when wild animals can cause serious damage to their properties. Sometimes wild animals were killed as a result of negative attitudes and cultural believes of local communities’ especially large carnivores for a manifestation of courageousness. Zoonotic diseases (mainly rabies; 6.32%) were transmitted from wild animal to humans and vise versa, and loss of human life (2.11%) were also the major impacts that results from the conflict. Impacts of human wild mammals conflict has significance difference (2 = 13.81, df = 6, p ≤ 0.05) between the targeted villages (Table 4).
Table 4. Major impacts of human-wild mammals conflict.

Impacts

Villages

Total

2

df

P- Value

Dagut

Gora Dur

Zinjero Meda

Property Loss

16.82

25.26

8.42

50.53

13.81

6

0.032

Wildlife Loss

10.53

25.26

5.27

41.06

Disease Transfer

0

2.11

4.21

6.32

Human Life Loss

1.05

0

1.05

2.11

Total

28.42

52.63

18.95

100

3.5. Mitigation Measure of Human-Wild Mammals Conflict

As the issue of human-wild mammals conflict in the area became more acute, mitigating measures were initiated. The reason why mitigation measure was developed in the area is that the problems of human mammals conflict becomes the serious problem and have high negative impacts on both the livelihood of local communities, mammals and their habitat.
Guarding of livestock (using dogs and shepherds; 50.52%) was the best method for reducing the issue of livestock predation and the spread of disease. In terms of mitigation, guarding of crops and fencing (35.79%) came in second, but first in terms of reducing crop damage by animal life. Other mitigation strategies like improve land use planning, chasing of wild animals & scaring (by using sounds, alarm call, throwing stones, gesturing, mimicking or impersonating), fumigants & herbicides, and killing of wild animals are also practiced by the local communities to reduce conflict. Regarding potential mitigating measures for conflict between humans and wild mammals, there was no statistically significant difference ((2 = 5.14, df = 6, p ≤ 0.526) between the villages (Table 5).
Table 5. Possible mitigation measure of human mammals conflict.

Impacts

Villages

Total

2

df

P- Value

Dagut

Gora Dur

Zinjero Meda

Guarding of Livestock

13.48

27.37

9.47

50.52

5.14

6

0.526

Guarding & Fencing of Crops

11.58

18.95

5.26

35.79

Awareness creation

3.16

6.32

3.16

12.63

Others

1.05

1.05

Total

28.42

52.63

18.95

100
4. Discusions

4.1. Cause of Human Mammals Conflict in Africa

On the surface, numerous conflicts seem centered on species impacts, such as the perceived influence of predators on livestock
[22]
. Yet, their origins typically extend beyond ordinary tangible disparities among stakeholders
[1]
. These conflicts stem from deeper cognitive realms and are intertwined with power dynamics, evolving attitudes, and values entrenched in social and cultural histories
[21]
. More frequently, conflicts arise due to differing perspectives on human-animal relationships
[30]
, unequal negotiation positions
[5, 4]
, or historical circumstances that cast conservation efforts in an ominous light
[17]
.
There are many factors that may contribute to human mammals conflict with regarding of livestock; first, most domestic animals cannot escape from wild predator’s attack because of little or no anti-predator behavior. Second, cattle may graze alongside wild predators, reducing the amount of natural prey available to carnivores. Finally, livestock are no longer guarded by peoples or dogs and are thus easy prey for wild carnivores
[6]
.
This findings in-line with Parker et al.
[19]
, Chardonnet
[6]
, and Tewodros & Afework
[27, 37]
that human mammals conflict was escalated due to the effect of wild animals on livestock depredation and raiding of agricultural crops. Insufficient grazing land and grazing of livestock inside the forest reserve with or without active shepherds is the most common cause for livestock depredation. Most wild mammals can cause adverse effect on agricultural crops that might trigger the conflict seriously (Table 2).
The finding in-line with Mojo et al.
[15]
that peoples almost have negative attitudes towards mammals and assumes that living with mammals has always negative effect on their economy, livelihood, safety, property and even dangerous to their lives. They perceived such type of perceptions might be raised as a result of greater negative impact on their livelihood, particularly from wild mammals without any tangible benefit like job employment, tourism or ecotourism, compensation for property loss to the local farmers from mammals (Table 5).

4.2. Most Problematic Wild Mammals

The destruction of crops is not a recent incidence; it has most likely been a part of human history ever since people first settled down and began engaging in agriculture. The media frequently covers some of the most spectacular occurrences, such as the outbreaks of locusts that destroy broad expanses of crops within the majority of the world. Crop raiding by vertebrates as well such as birds and mammals is also a significant problem. The most problematic wild animals include elephant, crocodile, lions, buffalo, hippo, bush-pig, baboons & monkey, birds and hyena
[3]
.
In Africa, an extensive variety of vertebrate species, including birds, rodents, monkeys, antelopes, buffalos, hippopotamuses, bush pigs, and elephants, come into conflict with agricultural operations. Elephants are typically seen as the biggest threat to African farmers, despite the fact that they typically do not cause the most harm to subsistence agriculture
[19]
. This study has slight difference with Anderson and Periera
[3]
and Parker et al.
[19]
. Wild animals including the Anibus Baboon, Wild Pig, Common Jackal, Porcupine, Hyena, and others have caused major damage to agricultural crops, livestock, and other assets in addition to human deaths (Table 3). The slight difference observed could likely be attributed to the prevailing climatic conditions and the unsuitability of the forest's extent for elephants and hippopotamuses, resulting in their absence from the area.

4.3. Impacts of Human Mammals Conflict

Predators killing domestic animals is one of the negative consequences of the conflict between humans and other mammals. Attacks on cattle are a problem in the savannah and grasslands, where pastoralism is still an important source of many people's income. Even while the losses are negligible on a national scale, they can be devastating for a single stock owner
[20]
.
On the African continent, crop destruction is the other primary of the conflict between humans and wildlife
[19]
. Wild mammals were capable of passing hazardous diseases, like rabies, to domesticated animals and potentially even humans. Predators and scavengers like spotted hyenas, jackals, lions, and vultures spread diseases by opening, dismembering, and scattering bits of contaminated corpses. For instance, anthrax spores are spread broadly in predators' faces when they consume it together with dead body tissue
[12]
.
The findings of this study were consistent with those of Parker et al.
[19]
and Patterson et al.
[20]
, but deviated from the report by Hugh-Jones and de Vos
[12]
. The potential variation in the disagreement might be rooted from the occurrence and transmission of diseases, which can vary significantly across different geographic regions. In the study, loss of human property (i.e. livestock depredation and damage of agricultural crops) was the most serious negative impacts recorded from human and mammals conflict. The large percentage, more than half (50.53%) of the respondents assures that the impacts of wild mammals on agricultural crops (crop damage) and domestic animals (livestock depredation) are the core issue that might results negative impact on the local economy’s, food security and livelihood, and leads to poverty at large and low standard of living (Table 3).

4.4. Mitigation Strategies for Human Mammals Conflict

Animal guarding offers an alternative to herding, which is a labor-intensive, time-consuming, and cost-effective technique for reducing human-wild mammals. But according to Ogada et al., the presence of dogs was only associated with fewer lion invasions on cattle and not on sheep or goats. In many different places of the world, donkeys have also been employed as guard animals. For example, in Kenya, one or two donkeys have been used for every herd of cattle to protect against lions
[18]
. Compared to cattle, donkeys appear to have a stronger defensive more sense and are inherently more aware of potential predators
[23]
. Using little primitive weapons like spears, knives, or firearms, human herders in East Africa have been known to challenge and chase away harmful carnivores like lions, hyenas, and cheetahs
[19]
. Human herders in this region are effective and courageous in keeping predators away. According to this finding, protecting livestock with dogs in addition to shepherds enables avoidance of depredation and prompt reaction to predator attacks since the loss is often smaller when shepherds are present than in herds that are allowed to roam free. Tefer’s report noted slight differences in the contributions of local people residing in and around the park to conservation efforts. These contributions primarily involved services such as guarding the area and reporting illegal activities such as poaching
[25]
.
Deterrents and repellents: have been tested against many different wild carnivores, but only a few have produced practical results. Scarecrows can be utilized as a deterrent, although they are less effective against lions than they are against leopards
[14]
. Methods of contraception: a range of mechanical, surgical, endocrine-disrupting, or immune-contraceptive procedures can be used to reduce the fertility of wild animals. These procedures must not injure the target animals, non-target animals, or potential capture victims
[8]
.
Different findings were observed from Madden
[14]
, Delsink et al.
[8]
and Schumann
[23]
. The possible explanation could be: firstly, local communities or farmers may lack access to contraception methods, deterrents, and repellents. Secondly, the complexity and accessibility of contraception methods may render them impractical, particularly if awareness of their existence and application is limited. Instead they use fumigants and herbicides to avoid some species of wild animals: porcupines hate fumigants of a certain plant species (Table 5).
Promoting understanding and Compensation: Awareness-building may be done in the community at various age and career levels, beginning with primary schools, adult education facilities, and farmer training facilities. A highly cost-effective way to manage conflict would be to educate youngsters and increase awareness among them and/or adults through the traditional authority of chiefs and headmen. Typically, the provision of compensation in the case of a loss is limited to a certain type of loss, such as human mortality, livestock killed by predators, or elephants destroying livestock
[16]
.
Similar finding was observed from Muruthi
[16]
and awareness creation is the one and best mechanism of reducing conflict. But it is not widely applicable because of different situations: first, lack of attention from all concerned bodies for mammals and almost no effective experience sharing and training about the importance of mammals and its value. Secondly, the local farmers need incentives/annuity at the end of each conference on the issue of mammals. Thirdly, farmers need active compensation for their life and property loss by mammals. Due to the above reasons, awareness creation and payment of compensation strategy becomes ineffective in the area as they need and assume, but they know that it is best and effective mechanism of reducing human mammals conflict (Table 5).
5. Conclusion and Recommendations
The conflict between people and wild animals has a detrimental effect on human social, economic, or cultural life as well as the preservation of the wild mammal population or its environment. It has increased mainly as a result of Agricultural expansion and human encroachment in to mammal’s habitat, loss of livestock by wild mammals, lack of awareness and negative attitudes of peoples toward wild mammals, and others.
The local communities adopt numerous potential mitigation measures to back-up the problem and for peaceful and co-existence between humans and wild mammals. Fencing, guarding of livestock and of agricultural crops, awareness creation, chasing & scaring (by using sounds, alarm call, throwing stones, gesturing, mimicking/impersonating).
1. Wildlife awareness should be spread by emphasizing the worth and significance of wild animals, ecology, tourism, and economic growth in general.
2. More study has to be done to determine the extent of human-wild mammal conflict in the region.
Abbreviations
HWC: Human-Wildlfie Conflict
Aknowledgments
My deepest gratitude goes out to Mr. Zenebe Ageru for his important suggestions and encouragement that considerably assisted me in improving the text. I'm also thankful to Mekelle University's Dry Land Agriculture and Natural Resources College for agreeing to conduct this research. Last but not least, I am grateful to everyone who has supported me from the beginning of data collecting until the end of the project.
Author Contributions
Setie Ewnetu is the sole author. The author read and approved the final manuscript.
Ethics Approval and Consent to Participate
Hawassa University granted approval for this study. As there were no respondents involved in this project work, consent to participation was not applicable. All methods employed in this study adhered to the relevant guidelines and regulations.
Conflicts of Interest
The authors declare no conflicts of interest.
References
[1] Adams, W. M., Brockington, D., Dyson, J., & Vira, B. Managing tragedies: understanding conflict over common pool resources. Science. 2003, 302(5652), 1915-1916.
[2] Agricultural and Rural Development Office. Annual report. Unpublished. (2002).
[3] Anderson, J. L., & Periela, F. Strategies to mitigate human-wildlife conflicts; Mozambique. 2005.
[4] Armitage, D. R., Plummer, R., Berkes, F., Arthur, R. I., Charles, A. T., Davidson-Hunt, I. J., & Wollenberg, E. K. Adaptive co‐management for social–ecological complexity. Frontiers in Ecology and the Environment. 2009, 7(2), 95-102.

https://doi.org/10.1890/070089

[5] Bryant, R. L. Non-governmental organizations and governmentality:‘Consuming’biodiversity and indigenous people in the Philippines. Political studies. 2002, 50(2), 268-292.
[6] Chardonnet, P., Fritz, H., Crosmary, W., Drouet-Hoguet, N., Mallon, D., Bakker, L., & Lamarque, F. Human-wildlife conflict: lion. The management of lion attacks on livestock and humans. Wildlife Management Working Paper (FAO). 2008.
[7] Conover, M. Resolving human wildlife conflicts: the science of wildlife damage managements. Lewis publisher. 2002.

https://doi.org/10.1201/9781420032581

[8] Delsink, A., Bertschinger, H. J., Kirkpatrick, J. F., DeNys, H., Grobler, D., Van Altena, J. J., & Turkstra, J. Contraception of African elephant cows in two private conservancies using porcine zona pellucida vaccine, and the control of aggressive behaviour in elephant bulls with a GnRH vaccine. Managing African elephant populations: act or let die. 2003, 69-72.
[9] Dereje, Y., Yosef, M., & Afework B.. Population ecology of Menelik's Bushbuck (Tragelaphus scriptus meneliki, Neumann 1902) from Denkoro Forest Proposed National Park, Northern Ethiopia. 2011, 37(1), 1-13.

http://www.nieindia.org/ijees/abstracts/v37/abstrv37_1.asp

[10] Eniang, E., Ljeomah, G., Okeyoyin, T., & Uwatt, A. E. Assessment of human wildlife conflicts in Filinga range of Gashaka Gumti National park, Nigeria. 2011.
[11] Fourie, N. H., Turner, T. R., Brown, J. L., Pampush, J. D., Lorenz, J. G., & Bernstein, R. M. Variation in vervet (Chlorocebus aethiops) hair cortisol concentrations reflects ecological disturbance by humans. Primates. 2015, 56, 365-373.

http://www.ncbi.nlm.nih.gov/pubmed/26318176

[12] Hugh-Jones, M. E., & De Vos, V. Anthrax and wildlife. Revue Scientifique et Technique-Office International des Epizooties. 202, 21(1), 359-384.
[13] Lamarque, F., Anderson, J., Fergusson, R., Lagrange, M., Osei-Owusu, Y., & Bakker, L. Human-wildlife conflict in Africa: causes, consequences and management strategies (No. 157). Food and Agriculture Organization of the United Nations (FAO). 2009.
[14] Madden, F. Creating co-existence between humans and wildlife: global perspectives on local efforts to address human wildlife conflict. Human dimension of wildlife. 2004, 9,247-257.

https://doi.org/10.1080/10871200490505675

[15] Mojo, D., Rothschuh, J., & Alebachew, M. Farmers’ perceptions of the impacts of human–wildlife conflict on their livelihood and natural resource management efforts in Cheha Woreda of Guraghe Zone, Ethiopia. Human-wildlife interactions. 2014, 8(1), 67-77.
[16] Muruthi, P. Human wildlife conflict: lessons learned from AWF's African heartlands. African Wildlife Federation, Washington, DC, USA. 2005.
[17] Niemelä, J., Young, J., Alard, D., Askasibar, M., Henle, K., Johnson, R., & Watt, A. Identifying, managing and monitoring conflicts between forest biodiversity conservation and other human interests in Europe. Forest Policy and Economics. 2005, 7(6), 877-890.

https://doi.org/10.1016/j.forpol.2004. 04. 005

[18] Ogada, M. O., Woodroffe, R., Oguge, N. O., & Frank, L. G. Limiting depredation by African carnivores: the role of livestock husbandry. Conservation biology. 2003, 17(6), 1521-1530.

https://doi.org/10.1111/j.1523-1739.2003.00061.x

[19] Parker, G. E., Osborn, F. V., Hoare, R. E., & Niskanen, L. S. Human-Elephant Conflict Mitigation. A training course for Community-based Approaches in Africa. Participant’s manual elephant pepper development Trust, Livingstone, Zambia. 2007.
[20] Patterson, B. D., Kasiki, S. M., Selempo, E. & Kays, R. W. Livestock predation by lions (Panthera leo) and other carnivores on ranches neighboring Tsavo National Park, Kenya. Biological Conservation. 2004, 119(4): 507–516.

https://doi.org/10.1016/j.biocon.2004.01.013

[21] Raik, D. B., Wilson, A. L., & Decker, D. J. Power in natural resources management: an application of theory. Society and natural resources. 2008, 21(8), 729-739. http://dx.doi.org/10.1080/08941920801905195
[22] Redpath, S. M., Young, J., Evely, A., Adams, W. M., Sutherland, W. J., Whitehouse, A., & Gutierrez, R. J. Understanding and managing conservation conflicts. Trends in ecology & evolution. 2013, 28(2), 100-109.

https://doi.org/10.1016/j.tree.2012.08.021

[23] Schumann, M. Integrated livestock and predator management. Otjiwarongo, Namibia, Cheetah Conservation Fund. 2004.
[24] Sillero-Zubiri, C., & Switzer, D. Management of wild canids in human-dominated landscapes. Canids: foxes, wolves, jackals and dogs: status survey and conservation action plan. 2004, 257-266.
[25] Tefera, M. Wildlife in Ethiopia: endemic large mammals. World Journal of Zoology. 2011. http://www.idosi.org/wjz/wjz6(2)11/1.pdf
[26] Teshome, Z., & Girmay, T. Human-wildlife conflict: challenge and management in Ethiopia: a review. International Journal of Emerging Trends in Science and Technology. 2017, 4(2), 5004-5009.

https://dx.doi.org/10.18535/ijetst/v4i3.04

[27] Tewodros, K., & Afework, B. Human-wildlife conflict and population status of Swayne’s hartebeest (Alcelaphus buselaphus swaynei) in Senkele Swayne’s Hartebeest Sanctuary. Addis Ababa University, Ethiopia. 2006.
[28] Torres, D. F., Oliveira, E. S., & Alves, R. R. N. Understanding human–wildlife conflicts and their implications. In Ethnozoology, Academic Press. 2018, 421-445.

https://doi.org/10.1016/B978-0-12-809913-1.00022-3

[29] Treves, A., & Karanth, K. U. Human‐carnivore conflict and perspectives on carnivore management worldwide. Conservation biology. 2003, 17(6), 1491-1499.

https://doi.org/10.1111/j.1523-1739.2003.00059.x

[30] Wishart, R. P. A Story about a Muskox: Some Implications ofTetlit Gwich’in Human–Animal Relationships. Cultivating arctic landscapes: Knowing and managing animals in the circumpolar north. 2004, 79.
[31] Woodroffe, R., Thirgood, S., & Rabinowitz, A. (Eds.). People and wildlife, conflict or co-existence? (Vol. 9). Cambridge University Press. 2005.
[32] Yamane, T. Statistics: An Introductory Analysis, 2nd Edition, New York. Harper and Row. 1967.
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    Ewnetu, S. (2024). Causes, Impacts and Mitigation Measures of Human Large Mammal Conflict in Estie Densa Forest Reserve, Estie District, Northern Ethiopia. International Journal of Natural Resource Ecology and Management, 9(2), 24-33. https://doi.org/10.11648/j.ijnrem.20240902.11

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    Ewnetu, S. Causes, Impacts and Mitigation Measures of Human Large Mammal Conflict in Estie Densa Forest Reserve, Estie District, Northern Ethiopia. Int. J. Nat. Resour. Ecol. Manag. 2024, 9(2), 24-33. doi: 10.11648/j.ijnrem.20240902.11

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    Ewnetu S. Causes, Impacts and Mitigation Measures of Human Large Mammal Conflict in Estie Densa Forest Reserve, Estie District, Northern Ethiopia. Int J Nat Resour Ecol Manag. 2024;9(2):24-33. doi: 10.11648/j.ijnrem.20240902.11

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  • @article{10.11648/j.ijnrem.20240902.11,
  author = {Setie Ewnetu},
  title = {Causes, Impacts and Mitigation Measures of Human Large Mammal Conflict in Estie Densa Forest Reserve, Estie District, Northern Ethiopia
},
  journal = {International Journal of Natural Resource Ecology and Management},
  volume = {9},
  number = {2},
  pages = {24-33},
  doi = {10.11648/j.ijnrem.20240902.11},
  url = {https://doi.org/10.11648/j.ijnrem.20240902.11},
  eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.ijnrem.20240902.11},
  abstract = {Human-wildlife conflict is a significant threat to the continued survival of many species and the livelihood of humans. This study aims to assess the conflict between humans and mammals in Estie Densa Forest Reserve, located in Estie Woreda. Currently, the forest reserve faces many problems like crop damage, disease transmission, livestock depredation, and even loss of human life. So, the study generates general information about human mammals conflict and provides baseline information for other researchers. Selection of 95 respondents from local communities through purposive sampling. The Chi-Square Test was employed to determine the significance of differences across the three Villages, and the results were presented in the form of tables and percentages. Crop raiding and livestock depredation have been proven the primary drivers of human-mammal conflict and are statistically significant among the Villages (P≤0.05). Anibus Baboon, Wild Pig, and Common Jackal were the major drivers of the conflict, and had statistical difference among Villages (P≤0.05). Property Loss, and Wildlife Loss covered more than 91% of the total impact perceived as a result of human mammals conflict, and statistically significant (P≤0.05). Livestock guarding (using dogs and shepherds; 50.52%) was the most efficient approach for alleviating livestock depredation and disease transmission from wildlife to livestock and vice versa. While fencing and crop guarding (35.79%) were second in terms of mitigation, but ranked first in terms of reducing agricultural damage caused by wildlife. There should be better awareness of the value and significance of wild animals, the ecology, tourism, and overall conservation of wild mammals.
},
 year = {2024}
}

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  • TY  - JOUR
T1  - Causes, Impacts and Mitigation Measures of Human Large Mammal Conflict in Estie Densa Forest Reserve, Estie District, Northern Ethiopia

AU  - Setie Ewnetu
Y1  - 2024/04/29
PY  - 2024
N1  - https://doi.org/10.11648/j.ijnrem.20240902.11
DO  - 10.11648/j.ijnrem.20240902.11
T2  - International Journal of Natural Resource Ecology and Management
JF  - International Journal of Natural Resource Ecology and Management
JO  - International Journal of Natural Resource Ecology and Management
SP  - 24
EP  - 33
PB  - Science Publishing Group
SN  - 2575-3061
UR  - https://doi.org/10.11648/j.ijnrem.20240902.11
AB  - Human-wildlife conflict is a significant threat to the continued survival of many species and the livelihood of humans. This study aims to assess the conflict between humans and mammals in Estie Densa Forest Reserve, located in Estie Woreda. Currently, the forest reserve faces many problems like crop damage, disease transmission, livestock depredation, and even loss of human life. So, the study generates general information about human mammals conflict and provides baseline information for other researchers. Selection of 95 respondents from local communities through purposive sampling. The Chi-Square Test was employed to determine the significance of differences across the three Villages, and the results were presented in the form of tables and percentages. Crop raiding and livestock depredation have been proven the primary drivers of human-mammal conflict and are statistically significant among the Villages (P≤0.05). Anibus Baboon, Wild Pig, and Common Jackal were the major drivers of the conflict, and had statistical difference among Villages (P≤0.05). Property Loss, and Wildlife Loss covered more than 91% of the total impact perceived as a result of human mammals conflict, and statistically significant (P≤0.05). Livestock guarding (using dogs and shepherds; 50.52%) was the most efficient approach for alleviating livestock depredation and disease transmission from wildlife to livestock and vice versa. While fencing and crop guarding (35.79%) were second in terms of mitigation, but ranked first in terms of reducing agricultural damage caused by wildlife. There should be better awareness of the value and significance of wild animals, the ecology, tourism, and overall conservation of wild mammals.

VL  - 9
IS  - 2
ER  -

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