The state of the world is very critical and the time is reached to stand and ask for change. Millions of dollars are spending on wars and much more goes in the oven of bankruptcy. Industrialization/privatization is the third sword hanging on the head of humanity. This entire situation created an evil triangle which resulted in poverty, malnutrition, hunger, jobs losses, wars, and many other consequences. This evil triangle is now going a step forward for future food control. To do this, a complex state of the situation is created in the form of stealing genes (biopiracy), patents for genes, so-called gene banks, GMO, BT, and promotion & backing for the promotion of industrialized breeds.
The situation is even more than nastiest. Local verities of seed, capable of combating climate change and resist droughts are pushed towards extinct with the evil mind of money hungry industrialized seed multinational companies. BT cotton is causing havoc losses to local biodiversity and now the weed control is near to impossible. Such act as backing and promotion of exotic verities pushed smallholders at stake and hunger increased manifold beside the so-called green revolution. Ban Genetically Modified FoodThe green revolution no doubt increased food production but at the cost of human health, environment, and biodiversity. Blind use of fertilizers, pesticides, weedicides, antibiotics, artificial colors and synthetic hormones created a situation of complex human health and many more new diseases introduced. Actually, green revolution was meant to destroy the resilience of local communities to climate change and drought which ultimately depend on the multinationals. Added benefits of reducing meat and dairy consumptionThis phenomenon resulted in giving food control in the hand of multinational.
If we talk about livestock biodiversity, the situation is very fragile and millions of smallholders are deprived of their precious indigenous livestock breeds and pushed in the hell of poverty and hunger. Millions of small livestock keepers, especially pastoralists in the South (underdeveloped part of the world, especially dry lands) depend on indigenous livestock breeds for their survival. People and Animal Agriculture~The Philosophy of the Low Carbon Livestock
Also, these small farmers and pastoralists are the custodian of precious livestock biodiversity in their habitats and ecosystems. Their livestock breeds depend on very marginal lands for grazing which has no other use. Livestock production systems of such farmers need very low or even zero inputs, therefore, their share in climate change is very limited. The keepers of the breeds continuously evolve their breeds with the help of their indigenous knowledge in tune with environmental changes and consumer demands. My Philosophy of Sustainability — Camel, food security and climate change
The Southern hemisphere of the planet earth is the cradle of animal domestication and almost all the livestock species for food and agriculture traveled from South to North. During the last 100 years, gene flows from South to North have been dwarfed by flows in the opposite direction, from North to South. Large numbers of animals, semen, embryos, and eggs are shipped to developing countries, and Northern breeds (particularly of pigs, poultry, and dairy cattle) have become firmly established in various countries. This development led to the erosion of livestock biodiversity in the South.Journal of Ethnobiology and Ethnomedicine | Full text | Ethnoveterinary treatments by dromedary camel herders in the Suleiman Mountainous Region in Pakistan: an observation and questionnaire study
The influx of high performing genotypes into existing breeds has always been an important component in developing and improving breeds. In the history of all species investigated, gene flow has contributed significantly to diversity. In population genetics, migration is an important source of genetic variability. But the international exchange of genetic material (North to South) from a decreasing number of sires (bulls) increasingly loses genetic variation with global impacts for developed and developing countries.FAO Press releases on AnGR
This flow of gene (breeds) is very unnatural and has environmental consequences. Such breeds need very high inputs of energy in the form of acclimatizing housing and feeding high energy and protein levels. Also, according to a study, naturally the flora and fauna species travel from south to north to cope with the climate change. In this context, this is an opportunity for southern breeds to flow towards the north and that is very natural. Hence supporting gene flow from north to south is very stupid and wasting the money of the western taxpayer in the form of subsidies to the breeders of the North.
The northern governments subsidize livestock exports by their banking system, while the South has furthered the import of exotic genetic materials, for example by offering livestock keepers credit, services, and subsidized feed. Southern governments tend to favor livestock industrialization at the expense of smallholder producers. International agreements regulating agricultural trade are likely to enhance the intensification of livestock production and increase gene flows to the South.
North breeds not only alter the breed diversity of the South but promotes a new culture of agricultural intensification and industrialization, leads to benefit the industries of developed countries. Such system is always dependent on foreign aids. The cash amount of aid usually goes into the pocket of corrupt officials and politicians and again transfers to the western banks. This is an evil cycle of money to exploit the small stockers of the south and narrow the diversity of the breeds.Turning Again to the Native Gene ~ Back to the Future
Failure of this system
In short, the time is reached to raise voice against the gene piracy and future food control. The planet is mother earth for all. Let stop playing with nature to earn money and fattening banks. Let raise our voice against manipulating genetic makeup of flora and fauna. Gene patient is one the dangerous weapon to control the state of future food. Gene is the creature of nature and our mother earth. No way to the patent gene.
Right, the based approach is the best tool in the present political situation of the world. Every individual and living organism have the right to survival. Let’s stop depriving small-scale farmers of their right. Let them survive and keep their system continue to produce healthy and natural food.
LIFE Network has introduced the livestock keeper’s rights. Join our hands and support the rights of livestock keepers. Here is the link to details of the livestock keeper’s rights.
I received a report about the swelling head disease from a colleague from Mithi district of province Sindh in Pakistan. He has sent me some pictures of the affected camels also. They are upset with the situation and already 37 camels are dead due to this disease. A colleague said, they tried to isolate bacteria but did not succeed yet. While looking at the pictures and the history of the disease, it clearly indicates to Orf. Here is some more information about the Orf disease of the camel in the ensuing lines.
Orf (Swelling Head Disease): This disease comes once in life and occurs before the permanent teeth appear (4-5 years of age). This viral disease is contagious coupled with fever and depression. Nodules develop on the lips and changes into blisters. In advanced stages, blisters are formed inside the mouth and nose. Swelling of the face and the head is the third and the advanced stage of Orf. If not treated properly, the animal becomes blind and unable to eat.
The strategy is based on specific treatment combined with supportive therapy. Specific treatment can consist of pouring warm, boiled water on the animal’s head, or hot branding of the head. As pesticide and/or larvicide, application of DDT powder or Trichlorfon in kerosene oil on the lesions is used, or insertion by smooth sticks with ash from the burned root from the plant Orgalama ((Rhazya stricta). Sometimes specific treatment is not very effective against orf. Supportive therapy can consist of giving hot food.
The hot food comprises of soups made of cockerel meat, egg, pulses, cereals, and chilies etc. Hot food is a composite of those nutrients which keeps the body active, energetic and enhance the activities inside the body.
For more details, please read the article at the following link.
In this article, the term SSPS will be use both for agriculture and livestock production. SSPS is playing crucial role in the food production and biodiversity conservation throughout the world. In agriculture, SSPS is mainly comprised of the farmers holding less than 2 hectares land. Such farmers usually depend on their local seed verities and use farm yard manure from their own animals waste for the fertility of their field crops. They do not use or rarely use pesticides and herbicides. They control pests with their own local/indigenous knowledge (IK), mainly comprised of biological control. They use their own skills for weeds control, as rotational cropping and grazing by the livestock etc.
Small-scale livestock production is based on subsistence foundations. Such livestock keepers keep mostly their indigenous livestock breeds, as local breeds are well adapted to the ambient ecosystems (harsh and hostile). Local livestock breeds are resistant to many diseases and pests, like ticks and flies etc. Indigenous livestock breeds (ILB) need very low inputs or even zero inputs for their production and survival. In many cases small-scale livestock keepers are landless farmers. They rely on marginal lands for grazing of their livestock; such lands have no other use. The small holding agriculture farmers are also holding small-scale livestock for food production, agricultural operations and soil fertility.
Small-scale agricultural systems are more resilient to climate change and ensure biodiversity. Their production system is quite sociable and in concord with the biodiversity. In most of the cases, small-scale production is organic in nature and health friendly. Traditional and indigenous cultures may be sources of agricultural knowledge useful for devising sustainable production systems. Small-scale producers therefore have an important role to play in achieving the Millennium Development Goals, especially MDG1.
Food security: Food is the very basic need and its security is the right of every individual on the globe. With a slight improvement this year but still the number of hungry people is around one billion. Food security is one of the major concerns of the present global scenario. Unfortunately most of them are from the developing country. Millennium Development Goals (MDGs) are far away to achieve, especially MDG1 (eradication of extreme poverty and hunger).
The situation is even more worsening because of much sad state of situations, like land grabbing, factory farming, struggle for gene control and climate change scenario etc. Open market economies, multinational companies struggle to control on gene and political influence of the rich people combine affect the small-scale production systems adversely. Small-scale production systems are the guarantee of safe food for millions of people on one hand and conservation and sustainable use of the biodiversity on the other hand.
Biodiversity: Biodiversity conservation is link to the question of food security. There is very strong link between biodiversity and food security. More diversified the agroecosystems (life, soil and landscape etc) more the resilience of the community to climate change. Unfortunately, more than 90of the crop varieties have disappeared from farmers fields and half of the breeds of many domestic animals have been lost. The other flora and fauna, not documented and studied are even not recorded.
Unfortunately, the present high input unsustainable production systems are based on high inputs (pesticides, fossil oil, fertilizers and antibiotics) and promote monoculture. Such move is resulting in the ever high loss of biodiversity and eliminating SPSS at high level. Because of high demand for animal protein, a short cut solution was adapted to cross the indigenous livestock breeds with the high yielding exotic breeds. Very limited number of breeds/verities within a species were selected for food production resulted in the narrowing the consumption of biodiversity in food chain. Also a high selection intensities within these breeds/verities resulted in further narrowing the gene pole of the biodiversity. The genetic variation, comprised of components between and within breeds/verities, is now under threat because of such intensive selection. The dependency on the genetic resources for food is narrowing, making the food chain even more fragile.
Also, big ideas like dams, highly mechanized monoculture agricultural production (green revolution) resulted in high level of environmental degradation and biodiversity loss. Such dilemma resulted in minimizing the options sustainable food production.
Conclusion: Small scale production system is very important for food security in the climate change context and conservation of biodiversity. Millions of the people around the world are involved both for production and consumption through this system. Such system is very much resilient to the climate change and droughts. While using very low or neglected quantity of fossil oil, they are mitigating climate change. The system is custodian of the precious biodiversity of agroecosystems, rich with biodiversity and in harmony with nature. Unfortunately the forces like, globalization, open market economies, gene control and industrialization/mechanization in agriculture are threatening this system. There is utmost need to characterize, documentize, visualize and prioritize this system both as a food security option and conservation of the biodiversity. Also, it is the need of time to give opportunity to play its role in the future food production systems.
About the Author
Being the president of the Society of Animal, Vet. and Environmental Scientists (SAVES), I am working on the issues of dry lands and indigenous livestock breeds with respect to climate change scenario. Author had been working with the pastoral people for last 10 years, while characterizing and documenting livestock breeds and indigenous knowledge, especially related to camel. Ahthor had been delivering training to the livestock keepers in remote for vaccination, drenching and other valuable practices. I am the author of the indigenous livestock breeds, livestock production systems of the tribal people and indigenous knowledge in Balochistan province, Cholistan and Thar Desert of the Great Indian Desert. He had been traveling with the Afghan nomads (Kochis) to work and document on indigenous knowledge and livestock breeds/husbandry.
Author organized camel scientists and herder in Pakistan and founded Camel Association of Pakistan. I am PhD in camel science and presented many international research presentations at various occasions.Dr Abdul Raziq had visited many countries and research stations.
This blog is derived from the Executive summary of state of food insecurity of the world of the FAO, UN. With the courtesy of the FAO report, 2011. (http://www.fao.org/news/story/en/item/92495/icode/?)
The food and economic crises of recent years are challenging our efforts to achieve the Millennium Development Goal of reducing the proportion of people who suffer from hunger by half by 2015. This edition of The State of Food Insecurity in the World focuses on food price volatility and high food prices, which are likely to continue in the years ahead. Indeed, the Group of Twenty (G20) Finance Ministers and Central Bank Governors has become actively engaged in finding cost-effective ways to reduce price volatility and mitigate its effects when it does occur. By using previously unavailable data sources and studies, this report goes beyond the global-scale analyses to find out what happened on the domestic markets where poor people buy and sell their food in order to draw policy-relevant lessons from the world food crisis of 2006–08.
The report emphasizes that the impact of world price changes on household food security and nutrition is highly context-specific. The impact depends on the commodity, the national policies that affect price transmission from world markets to domestic markets, the demographic and production characteristics of different households and a range of other factors. This is diversity of impact both within and between countries, points to a need for improved data and analysis so that the government can implement more effective policies. Better and more predictable policies can not only reduce unwanted side-effects on other countries, but can simultaneously reduce food insecurity and domestic price volatility at home.
KEY MESSAGES OF THE REPORT
And other details of the executive summary are available in the link below.
Climate change issue is not a symbol of fashion anymore but a real beast of the modern era. Though, mostly the developed and industrialized nations are responsible but the consequences are mostly bear by the communities of poor and so called developing countries. Climate change affects the life adversely in all its spheres, like agriculture, livestock, food chain, environment and socio-cultural harmony. Climate change has been affecting social life of the vulnerable societies. The consequences of climate change are now more visible than ever in the form of droughts, flash floods, desertification and introduction of new diseases of all the living organisms.
As, indigenous and local/tribal communities are dependent on the environment and natural resources, hence they are the first prey of the climate change. This close relationship with the earth means that they are often among the first groups to suffer the consequences of climate change. The same was happened in Pakistan in the last drought of ninety’s decade. The consequences appeared in the form of social conflicts and migration, resulted in pressure on the nearby cities and towns.
There are two ways to cope with the climate change scenario, i.e. technological mitigation and adaptation. The later is the best option for developing world as the mechanical mitigation demand very high in puts and results in long run further environmental degradation.
Local/indigenous knowledge and plants & livestock varieties are the best tool to cope with the climate change beast. Local people, especially pastoralists have adapted their own ways to cope with the climate change, though not visible. The pastoralists in horn of Africa; especially afar region (more prone to frequent droughts) had replaced cattle with camel and sheep with goat. Camel is resistant to drought as survive without water and even feed for longer period than any other domestic livestock. Also camel and goat rely on bushes which survive for years of droughts. Grasses, sheep and cattle are the first lump of droughts and disappear very rapidly.
But in Pakistan (Pashtoon land), due to pressure on rangelands resources for fuel wood, especially bushes, the nomads replaced camel with donkeys and tractors. The use of donkey is increased many folds, as donkey is one of the hardies animal and need very low or even zero input.
The climate change resulted in Africa in the form of water shortage. The water sources are now far from the living areas and women fetch water from far and wide areas (fetching of water is women’s duty). Consequently young ladies were not willing to marry in villages and communities. The local old women solved this problem as giving donkey in dowry to young ladies to fetch water.
Unfortunately, the drought could not bring positive response among the agriculture farmers in many countries. The farmers are politically powerful and they converted agriculture from agroecosystems to high in put production system by using electric power and submersible technology to unearth water from the rocks very deep. They could not shift their agriculture to practice the drought resistant local varieties but adapted high yielding hybrid crops (need more water, fertilizer and pesticides, weedicides) resulting in further environmental dilemma.
Illegal camel export is one of the major threat to camel population in Pakistan. Thousands of camel export to Iran and Gulf countries illegally and very inhumane. There is a severe shortage of meat in the country but this precious and healthy source of meat are going without any hurdle and difficulty. Though there is a ban on live or meat of animals but it is continued under the eyes of the administration. The situation is eyes opening. The precious camel genetic resources of Chaghai-Kharan region is already under threat and the camel population has been sharply declined to 50%. There is utmost need of time to strengthen the camel keepers of the region with some inputs like (feed and vet cover) and advocacy for their products. The camel in the region known as
The camel in the region known as Kharani breeds The world’s leading milch camel~The Kharani is one of the leading breeds with tremendous milk yield for a longer duration at the global level. Unluckily this unique breed is under severe threat and the number of camels is sharply decreasing as said before. The only hope can be the support as mentioned in the above paragraph and to rehabilitate the region with the highly valuable local plant ‘Thagaz’, a type of Halloxylon. The botanical name is Haloxylon persicum.AN ETHNOBOTANICAL STUDY OF CHAGAI DISTRICT, PAKISTAN
Today, 8 September, 2011, a forum on food security and climate change adaptation (FSCCA) was established. The decision was taken after a lengthy discussion of likeminded scientists and activists of SAVES, BRSP and SUSG. Agrarians, animal and veterinary scientists and forest expert participated in the meeting. The meeting was held in the conference room of Balochistan Rural Support Program (BRSP)
The main themes of the forum are;
The food security situation and climate change issues were discussed, especially in the context of the province of Balochistan Pakistan. It was concluded that the biodiversity of the region is at stake and food security is at risk. There is need of change at policy and field levels to combat such situation. A policy of change is the need of time to take all the stake holders onboard, especially the farmers.
It was accepted that the local varieties of plants and indigenous livestock breeds are the guarantee of food security, especially in climate change scenario. Local genetic resources can be use as a tool of resilience to combat climate change and desertification.
Members participated in the meeting along with their contacts are presented in the following table.
|E Mail Address|
|Sadar Naseer Tareen||Chairman||
|Abdul Wahab||Director Agric||
|Dr Abdul Raziq||Researcher SAVES||
|Arif Shah||D.D Agric.(Ext)||
|S. Habib ullah shah||Asstt.Director||
Dr Abdul Raziq, head of the SAVES will be the focal person of the forum and Muhammad Anwar of SUSG will be the secretariat.
The next meeting of the forum will be held in second week of October in the same venue, in which action research project will be discussed.
Dr Abdul Raziq
Focal point of the FSCCA
Playing with nature since last two centuries is now appearing in the calamities of climate change. The normal cycles of drought due to El Niño is now changing very adversely. (El Niño brings widespread drought (i.e., precipitation deficit) to the tropics. Stronger or more frequent El Niño events in the future and/or their intersection with local changes in the mean climate toward a future with reduced precipitation would exacerbate drought risk in highly vulnerable tropical areas). Many vulnerable societies to climate change are now suffering. Drought in the horn of Africa is the latest news, pushing million of people to the hell of hunger and malnutrition. The famines in Africa are concurrent.
Many vulnerable societies to climate change are now suffering. Drought in the Horn of Africa is the latest news, pushing millions of people to the hell of hunger and malnutrition. The famines in Africa are concurrent on the continent because of climate change, one of the worst affected continents. Unfortunately, the response to such calamities is always faulty and for time being. If the world put as much effort into long-term programs to build resilience in communities, as it is now doing to feed the hungry, this famine would never have happened in horn of Africa.
The climate change scenario is happening, is no more a fashion of discussions. Climatic change is appearing with its consequences, i.e. droughts and floods like in Africa and Asia respectively. Once again floods are hitting human settlements and agriculture field in South Asia, especially Pakistan. The question is food security in sustainable manner. Food aids and emergency help cannot work long. Short term policies and introduction of high yielding varieties of plants and animals cannot work sustainably. These all efforts are short term. The main question is how to strengthen local communities to produce resilience and adapt to climate change. Produce food items from their own resources (well adapted livestock and plant species) in the climate change context.
The first mistake started with the introduction of high yielding exotic varieties, which need very high inputs, ultimately result in environmental dilemma. Fruit farming in North and central highlands of Balochistan is the best example of the environmental degradation and water shortage as consequence of green revolution. While in fruit farming practices, ground water was lifted with electric power and now there is shortage of even drinking water. Also, high inputs in the form of pesticides and fertilizer resulted in many environmental consequences and loss of precious flora and fauna (biodiversity) and change in agroecosystems.
The fourth report of the intergovernmental panel on climate change (IPCC) published in 2007 projects that the global temperature of the planet’s atmosphere will likely have increased 1.1 to 6.4 C by the end of this century. The impact studies on biodiversity have shown significant changes in ecosystem and species distributions, principally due to increasing temperatures and altered precipitation regimes. The climate change will more intensify and threat to biodiversity and food chain will be more deepen. The scientists are agreeing that the loss to biodiversity minimizes the opportunities of food production. Another report, published very recently on world media, revealed that the flora and fauna migrate towards the pole and the polar diversity is going to disappear. The situation is changing very quickly, it is the time to rethink on the policies relates to local resources and communities to cope with the climate change calamities. The priority should go to more affected societies more focus to help.
Endogenous development and adaptability
Endogenous development is a development from within the communities. Such development is sustainable and resilient to climate change. Endogenous development is also of importance in developed countries with the high-input agriculture. Small-scale production system (SSPS) is an endogenous way of food production. Small-scale production system (SSPS), both of livestock and agriculture is one of the best tools for local communities to resist climate change. Local communities with their knowledge and resources can better coup with the situation of droughts. Pastoralism is another tool of resilience, the local community practice in Africa and Asia. Adaptation to climate change with the help of highly adapted livestock breeds and agriculture varieties is one of the best options; the vulnerable societies have had in hand. Adaptation to climate change is not a new phenomenon. Throughout human history, societies have adapted to climate variability alternating settlements, agricultural patterns, and other sectors of their economies and lifestyles. Adaptation in human history has been mostly successful.
Climate change with all its calamities is striking vulnerable communities very badly. Unfortunately, African and Asian continents are more prone to such calamities. The concurrent droughts and floods in Africa and Asia are the well-known examples of the situation. Indigenous/local resources and knowledge can be the best tool to cope with the climate change scenario, as local varieties are highly adapted to the local conditions. Local genetic resources produce in a very low input system of production and sometimes even need zero inputs. Applying high input unsustainable production system (factory, high mechanized, monoculture, energy based) cannot be helpful. Also, gene control giants (like Monsanto in Africa), land grabbing, political backing for cross breeding of indigenous livestock breeds and regional conflicts are even worsening the situation.
Indigenous livestock breeds, especially camel, can play a better and crucial role in such circumstances. Camel is one of the most important of them, survived the affected families to shift to other places to resist drought. Local livestock breeds consume many times the lesser quantity of water compared to the exotic livestock breeds and are more resistant to local diseases and pests. The best way to combat climate change, droughts, desertification etc is to promote endogenous development and to make the local communities resilient to the situation. The priority of the international aid should go to the most affected communities due to climate change. The main focus should give on the resilience, not just food aid so that the world can live in harmony and peace.
It is a real time pleasure that camel is receiving attention of the scientists more than ever. I hope the belongings will change in camel’s favor soon. From this end of the world, I would like to say that everything, each entity, organization and camel stake holder is important. Our basic theme must be inclusive but not exclusive. We should take on board all the stake holders for a global camel initiative. CARDN, IFAD, ISOCARD, Tvisky etc, everyone is important and playing important role.
Also about ideas of work, yeah, there is still need to work on each issue of camel. There are many people, scientists, workers in this world who are working on camel. Camel’s people are really devoted and already working in hard conditions. We have good human resource, so let’s work on all issues and correlate them all. Everything to be done is important; all are interwoven and correlated issues. In many areas of the world, there is high demand for camel products, esp camel milk but there is no good information system on the availability of milk and other products. In some area camel milk is available but marketing is poor. In some institutes, scientific publications are available but not extended to the stake holders. In some areas farms are available but the data is either not published or published at very local levels. Also, we really do not know about the sanctuaries, movement, population, breeds trends & status and production potential (quantitative traits) etc of camel. Some new diseases also threatened camel production and health in the recent time. Also gene level studies are important to know the real potential etc. There is also need to study camel in the climate change context. In Africa some pastoral communities are shifting from cattle pastoralism to camel pastoralism because cattle is the most prone to droughts. There are many global camel issues, like Australia is going to kill camel is carbon credit. Such problems are political also. The same camel can be use as food aid for the African continent and the recent drought stricken populace in Somalia and part of Kenya. Also camel work needs to be link with the pastoralism and dry land environment.
To materialize all the above ideas, funding is also very important. Funding is not an easy task especially these days because of economies crisis everywhere. Also, as an ice breaking a meeting of the organizations, scientists, representative from camel communities, funding agencies is also important. ISOCARD is going to have a camel conference at the junction of 2011-2011 in Oman. That is very good opportunity to participate and have a 1 day satellite meeting at the end of the conference. I wish if the ISOCARD authorities invite funding agencies and the other above said stake holders and have joint declaration on camel. ISOCARD is publishing a journal on camel and already conducted two camel conferences at global level, i.e. in Alain and Djerba, Tunisia. The journal of camel practice and research (JCPR), is another good source of data on camel.
FAO is also a good source of information on camel. Many publications of FAO on camel are available. The FAO funding on the application of global plan of action on animal genetic resources can also be helpful but only the governments can send the proposals against such FAO funding. FAO can appreciate governments to have camel projects.
Now, please walk for a concrete goal. Dr Aziz from KSA said, he can help in arranging findings or at least I understood that from his email. I am available for a joint camel work.
The camel was domesticated bit later than other animals so its name appeared late in the register of domesticated animals. The one-humped camel (Camelus dromedarius) is found in the all Arab land, Africa, South and central asia. dromedary camel is also found in Australian deserts commonly known as feral camel. Australian camels were actually emigrated to Australia with Asian people, especially Afghan to use as beast of burden for Australian development in eighteenth century.
The dromedaries were domesticated even earlier than the Bactrian, before 3000 BC in the Arabian Peninsula. The term "dromedary" is derived from the dramas Greek for "road") and thus is directly applicable only to the racing or riding dromedary. However, the term is used throughout the world to describe this specie.
Dromedaries were first associated with nomadic Semitic cultures and did not become important until the rise of the Arabian culture. They became important domestic animals only with the Muslim conquests of Egypt in the 7th to 11th centuries AD.
Two-humped camel (Camelus bactrianus ) is an Asiatic animal found in Gobi desert and other central Asian countries. The Bactrian Camels are thought to have been domesticated prior to 2500 BC. The name Bactrian is derived from a place name, Bactria, on the Oxus River in northern Afghanistan. Domesticated Bactrian camels were found in southern Russia by 1700-1200 BC and even in western Siberia by the 10th century BC. They were used in China as early as 300 BC as the original "silk route" camels, but were replaced by crossbreds of the Bactrian/dromedary later on.