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MIGRATION IS NATURAL

In recent years, human movements linked to changes in the environment or as a result of fleeing from poverty or war, have grown rapidly and have gained increasing visibility among scientists and policy makers. At the radio, on social media, on television, we often hear of a “migration crisis” when referring to the hundreds of thousands of migrants and refugees who, every year, seek prosperity in Europe coming from Africa, the Middle East and South Asia. Migration is often depicted as a threat, as a maladaptive strategy, and its reach as an unnatural phenomenon. But migration in one of those human patterns that can be seen from the start of human experience to present. Migration, which is the relatively long-distance movement of individuals in search of better conditions, is a phenomenon commonly found in nature. Birds do it. Fish do it. Mammals, insects and reptiles do it. Migration, what’s more natural than that?

Animal migration is surely one of nature most visible and widespread phenomena. Every minute of every day, somewhere, some place, animals are on the move. Migrations are undertaken by all major animal groups; the migrants span the animal kingdom, from birds to mammals, from fish to reptiles and amphibians, to insects and crustaceans. Even sponges and jellyfish larvae make use of this defining animal trait, which is migration, to adapt to imperfect habitats. So why do animal move? Migration is driven by a simple fact: the resources on Earth fluctuate. Warm summer months may be followed by inhospitable cold seasons. Plants – or other meals – may be abundant, but only for a short time. The best place to give birth or hatch young may not be a good place to find food. Thus, animals migrate in search of better resources: these can be warmer temperatures, more and better quality food and the availability of suitable places for reproduction. Often, animals migrate in a group and the social context can be very important when it comes to take a migratory decision.

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The migration of the greylag goose, which follows traditional routes, is well known. Birds that breed in Iceland overwinter in the British Isles; those from Central Europe overwinter as far South as Spain and North Africa; others migrate down to the Balkans, Turkey and Iraq for the winter. The youngs learn these locations from their parents, which normally stay together for life.

How far can animal travel?

Migratory birds undertake some of the most extraordinary journeys of any animal and the human-kind has long been fascinated by these long migrations: the first records of bird migration were written as much as 3,000 years ago by Ancient Greek authors such as Homer and Aristotle. The timing of birds’ migration seems to be controlled primarily by changes in day length. Migrating birds navigate using the sky, in particular the sun and the stars, and by sensing the Earth’s magnetic field. But which is the longest distance that birds can cover? The Arctic tern holds the record for the longest-distance migration. This bird travels between the Artic and the Antarctic each single year; it has been calculated that the Arctic tern covers the distance to the Moon and back three times during its lifetime!

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Artic terns cover the distance to the Moon and back three times during their lifetime

Between mammals, humpback whales move for very long distances. Each winter, humpback whales travel from the Antarctic to the tropics to find warmer waters in which to raise their young, as researchers have shown since 2007. In particular, a study published in 2007 by a group of American scientists followed a humpback whale mum and her calf using satellite data. They made a trip of 8300 kilometres in 161 days: it’s really a long way to go for a warm bath! The migration of the humpbacks was considered the longest of any mammal species, at least until 2015. In 2015, indeed, scientists recorded the record (at least so far) of mammal migrations. The record was set by a Gray whale, named Varvara by the scientists who made the discovery. Varvara travelled for almost 22000 km, swimming from Russian waters to Mexico and back!

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Like other great whales, Minkie whales migrate to temperate and tropical waters in winter and to polar waters during summer. This individual was photographed in Ireland, on its way to the tropics.

Between insects, a notable mention goes to dragonflies. Some species travel between Southern India and Southern Africa every year, stopping in Maldives and skirting the East African coast along the way. This migration, which covers between 4,000 and 6000 km, is maybe the longest undertaken by any insect. In insects, migration can involve many generations. The migration of the Monarch butterfly takes four generations to complete, on a 9000 km journey. Starting in Central Mexico and California, the first generation flies to Texas and Oklahoma where it lays its eggs and dies. The next generation takes off further north. The third generation reaches America’s Great Lakes and succumbs before the fourth generation flies all the way back south -up to 5000 km- to lay its eggs.

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Dragonflies can fly for more than 4,000 Km

Can animal mass migrations be driven by social factors?

Migration can be driven by social factors, as in the cases of anadromous fishes. Anadromous fishes are fishes which spend all their adult life in the ocean but that reproduce in freshwaters. In animal documentaries, have you ever seen some images of big fishes swimming and jumping against water flow in streams and rivers? If yes, these fishes definitively belong to the Salmon family. The Salmon family is a family of fish which include, among others, the well-known and highly commercialised Atlantic salmon, the Arctic charr and the Sockeye salmon. These fishes are born in streams and lakes of North America and Europe. Still very young, they migrate to the ocean to feed on small crustacean and other little inhabitants of the rich, oceanic waters. Here they increase tremendously in size and weight, they become holder and sexually mature. Once they reach sexual maturation, salmons return to the same river or lake where they were born. Here they reproduce, and then they die.

But how do they know when it’s time to move back to the rivers? Which type of signals in the environment (i.e. triggers) are used by these animals to start their travel? A study published in 2017 in the peer-review journal Animal Behaviour by a group of American scientists and based on over 20 years of data, aimed to shed lights on these questions. The researchers found that, in absence of any obvious environmental trigger, such as changes in temperature or light, is actually the social dynamics that induce fish to migrate. In particular, the researchers found that salmons synchronise their travel, by moving back to the rivers altogether. When a fish see the others migrate, is likely to follow them and to migrate itself. This study demonstrates the social component of migration; until now, most research on fish migration viewed the process of moving as an individual process. This study shows that the social context in which animals live matters when it comes to take a migratory decision. So why do salmon migrate all together? There are multiple reasons for which salmons migrate in mass. First, moving as a coordinated group helps them to reduce the risk of being predated. In particular, a mass migration reduces the possibility of being predated by bears, which are waiting for the salmons jumping upriver. Also, travelling together likely increase the possibility of encountering receptive partners once arrived at the spawning site. Once fishes arrive at the spawning site, indeed, females start the nest preparation, which involves creating a depression in the gravel bed of the river by literally piling gravel stones using their tales (see supplementary material). Once the nest is ready, females complete spawning within a few more days. Thus, females are only available to spawn for a very short period and thus the males who arrive together with them have more chance to reproduce. Arriving later and alone, in this case, means that there won’t be any female left to court and to mate with!

Also between the crustaceans, there are some cases of mass migrations. The spiny lobster in the northern Bahamas, for example, migrates in mass during autumn. Large numbers of lobsters move from the shallow waters near the coast to reach deeper, oceanic waters where they reproduce. This mass migration usually takes place at night, and it goes on for several weeks. Lobster starts to become hyperactive when the summer storms cause the coastal waters to become cooler. When this happens, lobsters start to literally queue: one by one, one following the other, they move to deeper waters. Scientists have proven that a lobster which becomes active induce others to queue up and to follow. Which benefits do lobster gain by moving together in a queue? Scientists have shown that, by queuing, lobsters reduce the risk of being dragged away by the fast and strong currents which are common in the Caribbean. Being together reduce indeed the hydrodynamic drag on each individual!

Are there any benefits arising from migration?

There are ecological benefits connected to animal migrations. Several studies have investigated the ecological importance of animal migrations.  The migrations of flying insects, birds and bats mean that a large number of living organisms move from the north to the south of the world. Because many migrant species, especially insects, are extremely abundant, seasonal migrations profoundly affect natural communities, scientists have shown. The effects that animal migrations have on the Earth ecosystems include changes in both predation and competition dynamics, but they are not limited to these. Moving animals simply transfer an enormous quantity of energy and nutrients between regions.

Let’s take a closer look to this, by focusing again on the salmons. By migrating upstream, spawning, and dying, salmon transfer nutrients from the ocean to the rivers. A portion of the nutrients is delivered in the form of faeces, sperm, and eggs from the living fish; much more comes from the decaying carcases of the adults. Phosphorus and nitrogen from salmon carcases enhance the growth of the small, microscopic, planktonic communities of rivers and lakes, which provide food for smaller fish, including young salmon. Thus, young salmon are literally sustained by their parents.

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Salmons migrate upriver to reproduce. Their number, however, has dropped in recent years.

Is animal migration an endangered phenomenon?

Around the world, many of the most spectacular migrations have either disappeared due to human activities or are in alarming decline. Birdwatchers in Europe, for example, complain that fewer songbirds are returning each spring from their winter quarters in Africa. Indeed, a recent continent-wide analysis of European breeding birds concluded that long-distance migrants (i.e., those species that breed in Europe but winter in sub-Saharan Africa) have suffered severe population declines, more than related nonmigratory species.

And what about the salmons? Prior to European settlement, 160–226 million kilogrammes of salmon migrated each year up to the rivers of Washington, Idaho, Oregon, and California. Today, after decades of dam construction, overfishing, water withdrawals for irrigation, logging, and streamside grazing by livestock, salmon populations have crashed. The total biomass of spawning salmon in the Pacific Northwest is now estimated to be only 12–14 million kilogrammes. Scientists have calculated that the rivers of the Northwest receive just 6% of the marine-derived nitrogen and phosphorus they once received from the abundant salmon population. How this may be affecting the ecology of the region’s rivers or adjacent farmlands is largely unknown. The causes of all these declines vary depending on the species and the locale, but in general, the threats to migrant animals fall into four categories: habitat destruction, the creation of obstacles and barriers such as dams and fences, overexploitation, and climate change.

Protecting migration

Protecting the abundance of animal migrants is the key for protecting the ecological importance of migration. As the number of migrants declines, so do many of the most important ecological properties and services associated with them. Increasing attention is given by the scientific community and policy makers to protect animal migrations. The challenges—scientific, economic, and social—associated with protecting animal migratory species are enormous. But so too are the payoffs. We can preserve phenomena that have sustained us since the dawn of humanity. We can protect ecological processes that are integral to many of the planet’s ecosystems from which our own survival depends of.

If we are successful, it will be because governments and individuals have learned to act proactively and cooperatively and because we have created an international network that is capable of sustaining much of the planet’s natural diversity. Two questions remain open: will we be able to do so? Shouldn’t we use a similar type of international, cooperative approach when it comes to human migrations as well? So far, these questions remain unanswered. A good starting point could be to begin to consider human migrations as a resource and not as a threat: after all…migrations, what’s more natural than that?

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THE VALUE OF NATURE

Nature and its ecosystems provide a range of services to humans, many of which are of fundamental importance for our well-being, health, livelihoods and survival. The services that nature provides are called by scientists “ecosystem services”.

Ecosystems services include, among others:

  • Provisioning services: food, water, air, raw material, genetic resources, medicinal resources, ornamental resources
  • Regulating services: air quality regulation, climate regulation, water flow regulation, waste treatment, erosion prevention, soil fertility maintenance, pollination and biological control
  • Cultural services: aesthetics information, recreation, inspiration for culture and art, spiritual experience and cognitive development.
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DOM. Copyright of Andreja Veluscek

Nature and Health

Nature affects human health in numerous ways. For example, trees and forests, but also the ocean and its inhabitants, help to preserve people’s health by maintaining air quality.

Did you know that there is a bit of ocean in every breath you take? In the oceans, tiny ocean organisms – called phytoplankton – live near to the water surface and drift with currents. Like trees and forests, these tiny, incredibly numerous oceanic organisms photosynthesize. The photosynthesis is the process by which living organisms such as plants and seaweeds use sunlight and carbon dioxide to make carbohydrates….to make food. A by-product of the photosynthesis is oxygen. Scientists believe that phytoplankton contributes between 50 to 85 percent of the oxygen in Earth’s atmosphere. So yes, most likely you’re a breathing oxygen coming from the ocean right now, no matter where you are.

But nature also affects health in ways that have to do with people’s behaviour and experience. Scientific research focusing on the health benefits of nature experience has a relatively short history, however, the idea that the experience of nature is beneficial has deep roots. The text written in 1865 by the landscape architect Olmsted has been described as the philosophic basis for the creation of national parks.

It is a scientific fact that the occasional contemplation of natural scenes of an impressive character, particularly if this contemplation occurs in connection with relief from ordinary cares, change of air and change of habits, is favourable to the health and vigour of men and especially to the health and vigour of their intellect beyond any other condition which can be offered them, that it not only gives pleasure for the time being but increases the subsequent capacity for happiness and the means of securing happiness. —Olmsted

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DOM. Copyright of Andreja Veluscek.

The exposure to nature can help maintain and restore focus and concentration when this capacity is overused and you feel fatigued. The ability to direct attention is the capability of focus and concentrate on one task by inhibiting and blocking competing stimuli or distraction. Intense or prolonged demands for directed attention can lead to attentional fatigue. Attentional fatigue is the decreased capacity of blocking distractions and it often results in a reduced effectiveness in daily life.

In 1995, two researchers conducted a study in a large USA University to understand if the simple action of watching at nature can help restore attention. The researchers decided to conduct this study on ca. 70 University students, because these are a group of people which is likely to be at increased risk of attentional fatigue. The researchers found that the students who had a window in their dormitory watching over a natural landscape were better able to focus and concentrate on their daily tasks than those who didn’t have access to a view of the natural world.

And what about our workplaces? In another study published in 1998, researchers have found that even just the sunlight penetration in an office has significant effects on job satisfaction, intention to quit, and general well-being. The view of natural elements through the office window was found to buffer negative impacts of job stress and have a similar effect on general well-being.

So, an action as simple as looking at nature through a window can help you restore your attention in a period in which you feel particularly fatigated, and can increase your own well-being.

On a wider angle, scientists have collected evidence of the psychological benefits of nature. In an article published by Kaplan in 1995 in the Journal of Environmental Psychology, the author suggests that natural environments are particularly important for their restorative effects on people. Nature is well-endowed with fascinating objects, as well as it offers many processes that people find engrossing. Ever enjoyed a nice sunset on a desert beach? Well, this is what we are speaking about.

Also, by quoting the author “it is as if there is a special resonance between the natural setting and human inclinations. For many people, functioning in the natural setting seems to require less effort than functioning in more ‘civilized’ settings, even though the latter are much more familiar”.

It’s not a case that natural settings are often the preferred destinations for extended restorative opportunities. The seaside, the mountains, lakes, streams, forests, and meadows are all idyllic places for ‘getting away’. In this perspective, natural environments that are easily accessible offer a very important resource for people who needs to recover their attention and energy after a period of increased fatigue.

Do you feel stressed? Speaking in general, one is “stressed out” when he feels tired, pressured, anxious, exasperated. The role that natural environments play is a powerful one. Experience in natural environments can not only help mitigate stress; it can also prevent it, scientists say.

So get your walking shoes and…get out there! Getting out in the wild might be one of your best strategies for functioning correctly in your busy, frantic work life.

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DOM. Copyright of Andreja Veluscek.

Is nature a legal person? Does nature have a monetary value?

If humans have rights, what about non-humans? Does nature have legal rights? What does it mean to declare nature as a legal person?

A “rights-based approach to environmental protection” is the most recent of various approaches that have been used by laws to protect nature and the ecological processes on which life depends. The rights-based approach to environmental protection can be interpreted as each human’s right to a certain quality of environment. Alternatively, the approach can be interpreted as it’s the environment itself that must be maintained in a healthy and ecologically balanced state.  At present, no official international legal instrument takes this approach, however the World Charter for Nature (UN general assembly) has proclaimed the intrinsic value of nature in 1982 (A/RES/37/7).

Nature and its ecosystems are also capital assets. Despite international commitments (through, among others, the Convention on Biological Diversity, 2010), global biodiversity continues to decline at an unprecedented rate. Ecosystem degradation and the loss of biodiversity undermine ecosystem functioning and resilience. At the last instance, ecosystems degradation and the loss of biodiversity threaten the ability of ecosystems to supply the flow of ecosystem services we all depend on.

We have to consider that scientists expect ecosystem degradation and biodiversity loss to increase as results of climate change and of the ever-increasing human consumption of resources.

For this reason, many scientists agree that biodiversity and its associated ecosystem services can no longer be treated as inexhaustible and free ‘goods’ and their true value to society (as well as the costs of their loss and degradation) need to be properly accounted for. In a study published in the Ecosystem Service Journal in 2012, several scientists presented the results of the analysis of the monetary values of ecosystem services provided by 10 main environments (Open oceans, Coral reefs, Coastal systems, Coastal wetlands, Inland wetlands, Lakes, Tropical forests, Temperate forests, Woodlands, and Grasslands). This important study is based on local case studies across the world. In total, approximately 320 scientific publications were screened and more than 1350 data points were collected.

The analysis shows that the total value of ecosystem services is considerable, monetarily speaking.  Ecosystem values were found to range between 490 $ per year provided by an ‘average’ hectare of open ocean to almost 350,000 $ per year provided by an ‘average’ hectare of coral reefs.

More importantly, the results of this study show that most of this value is outside the market and best considered as non-tradable public benefits. The continued over-exploitation of ecosystems thus comes at the expense of the livelihood of the poor and of the future generations. Scientists, therefore conclude that a better accounting for the public goods and services provided by nature is of crucial importance.

Indigenous people view both themselves and nature as part of an extended ecological family that shares ancestry and origins. It is an awareness that life in any environment is viable; this type of awareness is possible only when humans view the life surrounding them as kin. All the natural elements of the ecosystem in which you are living in become your kin, your relatives. The interactions that result from this “kin-centric ecology” naturally enhance and preserve the ecosystem itself. After all, don’t you protect your family? Don’t you do your best every single day to enhance your family life?

Nature as a legal entity, nature as a capital asset, nature as a whole, nature as kin: maybe, the key message here is that we all should start to watch at nature as a part of ourselves rather than as something outside of us. Maybe we all should watch at nature as something that belongs to us, and not as something to exploit. Maybe then, its protection will become a natural act.

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DOM. Copyright of Andreja Veluscek.

DOM of Andreja Veluscek, “La Galeria Balaguer” (Barcelona, Spain) 20 January- 31 March 2017.

On Friday 20th of January, 2017, from 7pm to 10pm at “La Galeria Balaguer” (Barcelona, Spain) there will be the inauguration of the first photographic showcase of one of the two founders of the Artemis Eyes Project, Andreja Veluscek. It will then be possible to visit the showcase “DOM” at “La Galeria Balaguer” until March 31st.  The pictures you have admired in this post are just a small selection of the beauty that Andreja has caught through her lens, and which constitute the “DOM” showcase. Quoting Andreja:

If asked to describe happiness, I don’t think of one particular moment. Instead, I think of the different spaces that, for me, are home. They are places that I can find again and again, almost anywhere. They aren’t places on a map, they are simply places that I am able to make mine and in which I can see part of myself. It’s the feeling of home without being physically there. With this in mind, my intention is not to depict the physical space. Instead, the intention is for the viewers to find something in these pictures that reminds them of home. Personally, the mountains are a place which help me to explain many things about myself. They are a connection to home, where the meaning of home is the pure feeling of happiness, tranquillity and contentment — Andreja Veluscek

With this article, I would like to invite you to visit DOM, if you are any close to Barcelona. I am sure you will find a little piece of yourself there.

More in general, this article is an invitation for all of us to get more in contact with nature.

I would like to close with a final quotation:

I did not want to think about people. I wanted the trees, the scents and colours, the shifting shadows of the wood, which spoke a language I understood. I wished I could simply disappear in it, live like a bird or a fox through the winter, and leave the things I had glimpsed to resolve themselves without me. — Patricia A. McKillip.

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DOM. Copyright of Andreja Veluscek.

DOM- Andreja Veluscek- complete portfolio

Opening of DOM

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