The ‘Ecological Emergency’ and what The Cabot Institute for the Environment are doing about it

The white rhino. Image credit: Meg Barstow, Postgraduate Student at the University of Bristol.

Biodiversity loss and ecological decline pose enormous threats to humans and ecosystems alike, yet due to human activity they are occurring on a scale not seen since the last mass extinction. As part of our campaign running alongside the UN Biodiversity Conference (COP15), this blog will highlight The Cabot Institute for the Environment’s research contributions to the fight against the ‘Ecological Emergency’. 

The Ecological Emergency and the need for evidence 

Human activity is pushing the natural world beyond the limits of its own resilience, causing populations of species to plummet and ecosystems to collapse. As well as the widely appreciated beauty of the natural world and our responsibility to protect it, our reliance on ecosystems makes their survival essential to our own. Ecosystems provide us with food, oxygen, carbon capture, air and water purification, nutrient cycling as well as protection from erosion, floods and droughts. Under current trends, we could see ecosystems and the fundamental services they provide disintegrate within a lifetime.

The urgent need for action is starting to be recognised; a number of UK councils and organizations have declared ‘Ecological Emergency’ and the Climate and Ecological Emergency bill has recently been put forward to replace the ‘outdated’ 2008 Climate Change Act. Last year’s UN Summit on Biodiversity saw leaders from all regions of the world take the ‘Leader’s Pledge for Nature’, which commits to reversing alarming global trends and putting biodiversity and nature on the path to recovery by 2030. If ambitious but necessary targets are to be met, a strong evidence base surrounding ecological decline and its drivers will be fundamental in devising effective restoration and conservation strategies.

Caboteers have made significant contributions to global knowledge, directly influencing both local, national and international policy. Using statements from our experts, this blog will highlight some of our key research contributions to the field and discuss why they are so important in the fight against the ecological emergency. This is as part of the Cabot ‘Ecological Emergency’ Campaign, which is running alongside COP15, the UN Biodiversity Conference, which is taking place this week.

A coral reef. Image credit: Meg Barstow, Postgraduate Student at the University of Bristol.

Restoration ecology 

Restoration ecology is the science which underpins ecological restoration – the much-needed repair of damaged and degraded ecosystems. Professor Jane Memmott, leader of the restoration ecology group, explained, “We work on the links betweenspecies, things like pollination, seed dispersal and predation, as it’s really important to reinstate these links between species, as well as the species themselves. We are particularly interested in species that have disproportionately beneficial effects – keystone species – as these can be used to help jump start restoration programmes.”

Identifying which habitats are the most effective to target in restoration strategies is another key element of the Memmott groups research. For example, ‘The Urban Pollinators Project’ led by Jane, was a inter-city, study surveying urban, natural and farmland pollinator habitats run over four years, with the aim of establishing urban restoration opportunities.

While urbanisation is known to be one of the drivers of biodiversity loss, the project found that cities in fact provide unique restoration opportunities. It found that the most beneficial actions for supporting pollinator networks were increasing the area of allotments, which were pollinator hot-spots, as well as strategic management of gardens and green space through incorporation of pollinator-supporting flower margins and meadows. Our reliance on insects to pollinate 75% of our crops and the alarming rate at which their populations are declining make this research particularly fundamental, and the findings have gone on to advise both local and national policy.

A bee, or ‘pollinator’.  Image credit: Meg Barstow, Postgraduate Student at the University of Bristol.

Experimental conservation 

Experimental conservation is research involving the testing and optimisation of conservation strategies. The experimental ecology and conservation group use mathematical models, small-scale experimental systems and long-term wild population data to do this. These techniques have the advantage of being generally non-invasive, leaving the ecosystems largely undisturbed, while giving huge amounts of crucial conservation information.

Dr Chris Clements, the experimental conservation group leader, explains, “My group develops and tests models which might help us to make more reliable conservation decisions. Our work covers a range of topics, including trying to predict what species and populations might be at most risk of collapse or extinction to understanding how multiple anthropogenically derived stressors might interact to increase extinction risk.” As time is limited and extinction is irreversible, ensuring conservation strategies are optimized and supported by a strong scientific evidence base is crucial to their success.

Forest ecosystems 

Forests are home to more than 80% of all land species of animals, plants and insects and are fundamental to our climate, as an integral part of the carbon cycle. Numerous global changes are causing their coverage to rapidly decline, and as well as this exacerbating climate change through reducing their ability to sequester carbon, it poses an extinction threat to the many species that call them home.

Dr Tommaso Jucker leads research investigating forests and the processes which shape their structure, composition and function. Tommaso explains “We hope to not only understand how forest ecosystems are responding to rapid global change, but also lead research that directly informs the conservation and restoration of the world’s forests.” Establishing a clear picture of what the world’s forests might look like in future is crucial to the conservation of the creatures which inhabit them, as well as for preparing for the impacts on people and climate.

A sloth in its forest habitat. Image credit: Sam J. England, PhD student at the University of Bristol.

Aquatic habitats and oceans 

The ocean constitutes over 90% of habitable space on the planet and the ecosystems within it contribute enormously to biodiversity, livelihoods, the carbon cycle and our food supply. This makes understanding the impact of human activity on these submerged worlds essential. As well as the pressure put on ecosystems by over-exploitation, pollution and habitat destruction, rising CO2 levels and are causing environmental changes in oceans, including warming and acidification.

Microbial ecologist, Professor Marian Yallop, and her group investigate aquatic microorganisms, such as algae and cyanobacteria, and their responses to environmental changes such as temperature, pH and pollutants. These often invisible microorganisms are pivotal to global oxygen production and carbon dioxide absorption, as well as occupying a critical position at the base of many food chains. This makes their fate crucial to that of the planet and all of the organisms on it.

Under the sea. Image credit: Meg Barstow, Postgraduate Student at the University of Bristol.

Behavioral and evolutionary ecology 

Evolution and adaptations are at the core of a species ability to survive. In animals, a key element of this is behaviour. Rapid global changes are having complex implications on species and in many cases, the implications of human activity on animal behaviour are only just starting to be realised. Cabot has a number of behavioural experts working to better understand a variety of species behavioural responses to human activity, in order to understand how we can better manage our environment for their conservation.

Professor Gareth Jones, who predominantly works on bats, investigates their behaviour, evolution and responses to human activity, for example, how anthropogenic light can affect them and their insect pray, as well as how they can be deterred from dangerous infrastructure, such as wind turbines.

Professor Andrew Radford is a behavioural ecologist working on bioacoustics, so the production and reception of sound, on species from all across the animal kingdom. Anthropogenic, or ‘man-made’ noise has significantly altered the sound scape of habitats throughout land and sea, therefore, it is essential to understand how this might interfere with development and behaviour so that negative effects can be mitigated. Incorporation of behavioural insights into conservation and restoration strategies can contribute significantly to their success, therefore, research in the field is a key pillar of conservation.

A bat in flight. Image credit: Meg Barstow,  Postgraduate Student at the University of Bristol.

Conservation Law 

If scientific research is to have a positive impact translated into the real world, it must be implemented in policy, meaning law is a hugely important element of conservation. Dr Margherita Pieraccini from the School of Law, who works predominantly on marine conservation law, explains “My research investigates the socio-legal aspects around ecological governance, with the aim of providing a critical understanding of existing conservation laws and envisaging ecologically just ways of governance.” Ecological decline will negatively affect everyone, however the consequences do not affect communities equally, therefore, evidence based conservation laws are essential to prevent inequality and poverty being exacerbated.

The Nocturnal Problem 

Establishing a full and accurate picture of where evidence is available, and where it is missing, is fundamental to shaping the future path of research and enabling us to protect all ecosystems. Dr Andrew Flack, an environmental and animal historian, is investigating what is known as ‘The Nocturnal Problem’, which is the significant underrepresentation of night-time ecologies in research. Dr Flack explains “My own historical research draws attention to the ways in which nocturnal ecologies and the threats to them have been understood, and that until very recently, scientists have neglected the impact of human activity on night-time ecologies.” Half of everything that has happened or will happen has happened in the night, therefore, nocturnal species make up significant proportions of our ecosystems. Neglecting nocturnal species in research can therefore have catastrophic consequences not only to those species, but to the diurnal (day-time) species that they are intertwined with through ecosystems.

A fox cub. Image credit: Adam Hearne, Student at the University of Bristol.

The University of Bristol’s action on ecology and climate 

As well as being at the forefront of research, Cabot’s home institute, the University of Bristol, has taken a number of actions to support ecology. Wildlife supporting infrastructure, such as wild-flower meadows, bug hotels and ‘living buildings’ are dotted strategically around the campus. The Universities green space, Royal Fort Garden, is a hub of wildlife and supports a variety of species, as well as hosting an installation, ‘Hollow’, made of fragments of 10,000 species of tree from all over the world, inspiring interest in global biodiversity. The University was also the first UK university to declare a climate emergency in April 2019, and has set world-leading targets to reach net-zero by 2030. Mitigating climate change is fundamental to protecting ecosystems, however, as ecological decline could continue alongside decarbonization, or even be exacerbated by the means to get to net-zero, it is essential that it is not overlooked in sustainability strategies.

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This blog was written by Hilary McCarthy, a University of Bristol PhD Student and part of the Cabot Communicators group.

 

Thank you to University of Bristol students and staff for wildlife photography submissions used in this blog and across the campaign: 
Adam Hearne (UoB Zoology student and wildlife photographer, www.adamhearnewildlife.co.uk, Instagram: @adamhearnewildlife) 
Meg Barstow (UoB, wildlife photographer, Instagram: @cardboard.rocket) 
Sam J. England (PhD student researching aerial electroreception in insects and wildlife photographer, Instagram @sam.j.england, https://www.samjengland.com)

Ecological decline: an overlooked emergency?

A blue tit landing. Image credit: Adam Hearne, Student at the University of Bristol.
The words ‘Ecological Emergency’ are appearing in an increasing number of environmental declarations, strategies and parliamentary bills. This blog will discuss the need to recognise ecological decline as an emergency in its own right, as well as being an element of the climate emergency. This will be part of an ‘Ecological Emergency’ Cabot Campaign which will run alongside the United Nations Convention on Biological Diversity (COP15), which is happening this week.

Last year, The Cabot Institute for the Environment’s home city Bristol became the first major city to declare an ecological emergency. This declaration came only two years after Bristol became the first European city to declare a climate emergency. Many UK councils and organizations have since declared joint “Climate and Ecological” emergencies, and the Climate and Ecological Emergency Bill has been put forward to replace the ‘outdated’ 2008 Climate Change Act. These declarations show that while climate and ecology are intrinsically linked, there is increasing recognition of ecological decline as an emergency in its own right as well as being a consequence of and contributor to the climate emergency. Climate mitigation is fundamental to safeguarding ecosystems, however, ecological decline could continue alongside decarbonisation and even be exacerbated by the means to get to net-zero, if the ecological emergency is overlooked in sustainability strategies and policy.

The UN Convention on Biodiversity (COP15) is taking place this week and a Cabot Campaign on the ‘Ecological Emergency’ will run alongside it. The campaign will include a series of blogs and posts across our website and social media. Using statements from Cabot researchers in relevant fields, this blog will discuss the ecological emergency and the need for targeted action.

 

Bristol suspension bridge. Image credit: Meg Barstow, Postgraduate Student at the University of Bristol.
 
What is the ecological emergency?

Biodiversity is being lost on a scale not seen since the last mass extinctionDr Chris Clements Caboteer and leader of the experimental conservation group explains. While Dr Andrew Flack, an environmental and animal historian, described the ecological emergency as “among the most profound crises of our time, diminishing not only planetary diversity but also the very experience of being human on our beautiful, rich planet“.

More quantitively, the statistics which drove Bristol’s pioneering ‘Ecological Emergency’ declaration include:

  • 60% of the worlds wild animals have been lost since 1970
  • One in seven UK wildlife species are at risk of extinction
  • More locally in Bristol and the surrounding areas, swift and starling populations have dropped by more than 96% since 1994
  • 41% of insects are threatened with extinction, posing a huge threat to our global food supply due to 75% of our crops being reliant on pollination by insects
  • Three-quarters of land and two-thirds of marine environment have been significantly altered by human actions
 
A honey bee on a flower. Image credit: Callum Mclellan, Student at the University of Bristol.

In their statements, many of our academics highlighted that, as well as the beauty of the natural world and our responsibility to preserve it, our reliance on ecosystems makes their survival essential to our own. Ecosystems provide us with food, oxygen, nutrient cycling, carbon absorption, air and water purification, and protection from erosion, floods and droughts. Many of these services are already under increased pressure due to climate change, which ecological decline is intertwined with. Destruction of ecosystems and exploitation of wildlife can also cause the emergence of infectious disease, as has been demonstrated by the occurrence of the current COVID-19 pandemic. Biodiversity loss and climate action failure both earned their own place in the top five threats to humanity in the next five years, according to the 2020 Global Risks Report from the World Economic Forum. Though these interdependent crises will drastically affect everyone, their consequences will not be felt equally among communities and are sadly already intensifying inequality and poverty.

Intertwined emergencies

 “The climate emergency is certainly exacerbating the ecological emergency” Professor Jane Memmott, a leading restoration ecologist, explained. Under current trends, climate change is projected to drive many ecosystems to collapse. Simultaneously, large-scale destruction of ecological carbon sinks, such as forests, wetlands and mangroves, is contributing to climate change. There are several feedback loops at play: destruction of carbon sinks is increasing atmospheric CO2, which drives climate change and in turn further ecological degradation, which then further debilitates natures ability to store carbon. This forms a vicious cycle, with profound consequences for the planet.

The interdependent emergencies share similar causes, consequences and solutions, however, Dr Tommaso Jucker, whose research is on forests and their responses to rapid global change, explains “it is not only climate change that threatens biodiversity, and the effects of biodiversity loss on people will not just be a subset of those brought on by climate change”. As well as climate change, threats to ecosystems include species over-exploitation, habitat destruction, pesticides and pollution of land, air and water. These could all continue simultaneously to our efforts to decarbonise, and even be exacerbated by the means to get to net-zero, if the ecological emergency is overlooked in sustainability strategies.
 
A forest. Image credit: Dr. Stephen Montgomery, Senior Research Fellow at the University of Bristol

A coordinated approach to climate and ecology

The climate emergency is becoming mainstream conversation and it is now widely accepted that huge changes in policy, infrastructure and behaviour are needed. However, while the climate emergency is gaining recognition, the ecological emergency is comparatively overlooked. If we are to avoid ecological collapse, a co-ordinated approach to the crises is essential; focusing purely on technological advancement and decarbonisation runs the risk of allowing and even exacerbating further ecosystem destruction.

Natural climate solutions, such as strategic management of forests, grasslands and wetlands, can offer around a third of the climate mitigation required by 2030 to keep warming below 2 °C. These environments are not only carbon sinks, but biodiversity havens, making them effective solutions for ecological decline as well as climate change. Protecting ecosystems is also often significantly more cost-effective than human-made climate interventions. However, due to our often unnatural lifestyles and a fast-growing population, nature alone will not be enough to mitigate human impact on the environment.  

A peacock butterfly. Image credit: Sam J. England, PhD Student at the University of Bristol.

The need for targeted action 

As well as the intrinsic links and coordinated solutions to the climate and ecological emergencies, there is a lot that can be done to specifically alleviate the ecological emergency. This is exemplified by Bristol’s ‘One City Ecological Emergency Strategy‘ which predominantly focuses on land management, pesticide use, water quality and consumption of products that undermine global ecosystems. This is in addition to climate mitigation, already covered in the Climate Emergency Action Plan.

Last year’s UN Summit for Biological Diversity saw leaders from all regions of the world take the ‘Leader’s Pledge for Nature’, which commits to reversing alarming global biodiversity loss trends by 2030. To achieve this ambitious but necessary goal, both climate action and targeted conservation and restoration strategies will be needed on both a local and global level. For these crises to be mitigated, some uncomfortable truths surrounding lifestyles many have become accustomed to will have to be faced.

The word ‘emergency’ from a scientific perspective 

Despite widespread agreement on the obvious threats posed by biodiversity loss and the need for action, the word ‘emergency’ can be controversial, especially amongst the scientific community. Professor Richard Wallexplained “As a research scientist, my view is that the sound-bite ‘ecological emergency’ is not sufficiently nuanced to be useful in scientific discourse and is best left to journalists and campaigners; it has no scale or quantification and what constitutes an ‘emergency’ is highly subjective.”

Public awareness surrounding our changing climate and declining ecosystems are important, however, if action doesn’t follow declarations, then they run the risk of being no more than empty PR stunt and can increase public immunity to the word as well as the impacts of the crisis itself. COP15, which is happening this week, will be pivotal in deciding the future of our own species, as well as all the other species that share our planet.

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This blog was written by Hilary McCarthy, a University of Bristol PhD Student and part of the Cabot Communicators group.

Thank you to University of Bristol students and staff for wildlife photography submissions used in this blog and across the campaign: Adam Hearne (UoB student and wildlife photographer, www.adamhearnewildlife.co.uk, Instagram: @adamhearnewildlife) Meg Barstow (UoB student, wildlife photographer, Instagram: @cardboard.rocket)
Dr Stephen Montgomery (Senior Research Fellow, Neurobiology and Behaviour, School of Biological Sciences) Sam J. England (PhD student researching aerial electroreception in insects and wildlife photographer, Instagram @sam.j.england, https://www.samjengland.com)

 

Looking back over a decade of Urban Pollinating in Bristol

Bees on Teasel
Two bumble bees on Teasel. Credit: crabchick

As the UK prepares to host the UN Climate Change Conference COP26 (31 October – 12 November) and the UN Convention on Biological Diversity COP15 takes place online (11-15 October), I have been looking back over a decade of urban pollinating in Bristol.

One of the four COP26 goals is ‘adapt to protect communities and natural habitats’ which includes Nature Based Solutions (NBS). These are answers to global environmental challenges which are created or inspired by natural processes based on or utilising the functions of nature. For this purpose, the Urban Pollinator Project established first here in Bristol, demonstrates perfectly how natural resolutions can benefit our ecosystems on a local, national, and global scale.

Urban Pollinators 

Before 2011 an extraordinarily little amount was known about the ecology of urban pollinators in the UK. Despite pollinators maintaining a vital role in protecting our biodiversity and upholding crucial ecosystems, their role in our ever-expanding cityscapes had yet to be examined.

Only a few plants are able to self-pollinate, and as a result they are reliant on insects, birds, bees, wasps, wind, and water to keep the cogs of pollination turning. Yet, since the 1930s 97% of wildflower meadows, home to many the many species of pollinators, have been lost. As a result of this drastic loss of habitat, a recent report found that a quarter of known bee species have not been sighted  since the 1990s. Certainly, an increase in urbanisation and expansion of cities and towns into wilder areas has contributed to such a dramatic decline. And so, the question was posed – how can we make pollinating insects more resilient and adapt to our increasingly urban landscapes?

In 2011 Dr Katherine Baldock, a researcher at the University of Bristol, set out to answer these questions. Leading teams from the University of Reading, Leeds, Edinburgh, and Bristol they embarked on a four-year nationwide initiative researching insect pollinators in urban habitats in the first study of its kind – The Urban Pollinator Project.

Findings 

In Bristol, university researchers from the project examined the introduction of wildflower meadows alongside the M32 in July and August 2011. Over half of the species on Bristol’s Biodiversity Action Plan Priority Species List are in fact pollinators, and so not only was the Urban pollinators research unique, but vital to the future of our city’s ecology.

The findings from the study were able to report no significant difference between an abundance of pollinators and rare species in these urban wildflower meadows when compared with farms, wild areas, and nature reserves. They were also able to locate “hot spots” of pollinator diversity in cities and most importantly they were able to provide practical advice to the government, wildlife organisations, city councils and local individuals as to how to increase and improve pollinator biodiversity in urban habitats. (report)

In 2014, researchers from the Urban Pollinators Project went on to work alongside the Department for Environment, Food and Rural Affairs (Defra) using their findings to provide practical advice to the UK as part of the National Pollinator strategy, using Bristol as an example of where urban pollinating strategies had already been implemented.

Local impact 

Locally, the team of urban pollinators have left a big impression on the Bristol community. The research conducted by the urban pollinators has gone on to have a significant impact on local wildlife trusts, businesses, individuals, and policies, influencing and advising on many successful conservation initiatives across the city.

At the University of Bristol, students in 2012 and 2013 planted wildflower meadows across the campus, creating a 30 square metre pollinating zone which in addition to its ecological benefits, looked great too. Many other organisations followed suit and urban wildlife zones cropped up across Bristol localities making room for pollinating insects and raising awareness for their protection throughout different communities.

In 2014, the Get Bristol Buzzing initiative was formed in yet another first of its kind. In a partnership between Avon Wildlife Trust, Bee Bristol, Bristol City Council, Bristol Friends of the Earth, Buglife, South Gloucestershire Council and the University of West England they all united, dedicated and determined to protect and increase pollinating habitat across Bristol. Similarly, they committed themselves to raising awareness for the importance of insect pollinators and spread the word around local communities, organisations, and businesses. (report)

In 2015 the University of Bristol led “The Greater Bristol Pollinator strategy” which in 2017 was able to report an increase in pollinators in the Greater Bristol area.

Global impact

The decline in pollinating insects is occurring globally, and at a rapid rate. To help to protect global biodiversity the blueprint established in Bristol could certainly provide a nature-based solution in the face of future global environmental challenges.

Today the impact of pollinators is no longer just being investigated in urban environments across the UK. Current project-lead and original member of the Urban Pollinators Project Professor Jane Memmott has recently been examining the role of pollinators in protecting food chains in Nepal. Her dedication to improving ecological networks and pollinating systems has most recently led her to a pioneering discovery that pollinating animals can improve nutrients in food in developing countries.

The project today

This year, continuing their excellent work, Professor Jane Memmott and the Urban Pollinator Project discovered that urban gardens are vital for protecting pollinating insects. Published in the Journal of Ecology, this research found that city gardens account for an impressive 85% of nectar produced in Urban areas generating the most nectar per unit area of land. With 29% of land in cities made up of domestic gardens, it truly is vital that we seek to cultivate thriving urban environments to protect our pollinating ecosystems.

Thanks to these dedicated ecologists it has been a remarkable decade for the Bristol bees, hopefully the next decade will be even better.

So, what can you do to turn your garden into a pollinating haven?

(1) Plant for our pollinators:

Bees, wasps, butterflies, and other pollinating insects love nectar and pollen rich flowers and trees. Try filling your garden, allotment, porch, windowsill, or any available space with the flowers they love!

(2) Leave areas to go wild:

Save yourself from gardening and allow plants to grow freely, the wilder the area the more pollinators it will attract.

(3) Ditch pesticides:

Many pesticides can be harmful if not kill pollinating insects. Abandoning pesticides will increase the chances of making your area a pollinating zone!

(4) Mow your lawn less:

Research published in the Biological Conservation Journal found that by mowing your lawn once every two weeks instead of one increases the number of bees in that area by a huge 30%.

(5) Make a bee house:

Make a bee house of bamboo sticks to give your local bees somewhere to lay their eggs and protect themselves from harsh weather conditions.

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This blog is written by Lois Barton, Cabot Institute for the Environment Global Environmental Challenges Master’s student and temporary Comms Assistant. Lois’s research explores the role of the arts in ecological movements in Chile, specifically surrounding how visual culture increases visibility for environmental causes.

 

Interested in postgraduate study? The Cabot Institute runs a unique Master’s by Research programme that offers a blend of in-depth research on a range of Global Environmental Challenges, with interdisciplinary cohort building and training. Find out more.