Bird conservation threatened by shifting baseline syndrome

Tour du Valat

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Black Tern in continuous decline for over a century

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Credit: Guifette-noire@T-Galewski-TourduValat

New research shows that populations of dozens of waterbird and seabird species have been declining for much longer than previously thought in Europe. The article “Shifting the baseline for waterbird and seabird conservation in Europe, risk assessment over one century” demonstrates that ignoring population trends over the last century leads to setting under ambitious goals for restoring biodiversity.

In Europe, major bird conservation and monitoring efforts were launched in the 1970s in response to the degradation of their habitats and populations. Monitoring species provides highly accurate information on the current conservation status of their populations. But ignoring what preceded these monitoring efforts potentially leads to underestimating the true extent of the declines.

A study conducted by the Tour du Valat (France) and the University of Turku (Finland), published in Biodiversity and Conservation, analyzed more than a century of data (1900–2018) on 170 species of waterbirds and seabirds. Its conclusions are clear: ignoring historical declines shifts the baseline for at least 40% of the species assessed. The researchers show that using the 1970s as a baseline tends to normalize  an already severely degraded state. “Restoring bird populations to their 1970s levels is not enough: their decline began long before that,” warns Thomas Galewski (Research Director at the Tour du Valat). Restoration policies should therefore be based on a perspective of at least a century in order to be truly ambitious.

Even more worrying is the fact that some species have been in continuous decline for over a century. This is the case for the Black Tern and the Corncrake. “These species should be placed as a priority for conservation efforts,” warns Élie Gaget (Tour du Valat), lead author of the study.

Since the 1970s, international conventions and European directives have been adopted to protect birds and habitats. However, the results remain insufficient: 61 out of 170 species continue to decline. The causes—destruction of wetlands, intensification of agricultural practices, overfishing, pollution, illegal or unsustainable hunting—remain powerful and insufficiently controlled. Climate change is exacerbating existing pressures and disrupting ecological balances. 

The Greater Flamingo, which had almost disappeared from Western Europe in the 1960s, has spectacularly recolonized the Mediterranean basin thanks to the protection of its breeding sites, first in the Camargue, then in other wetlands in Spain, Italy, and Turkey. After decades of persecution that had almost wiped it out, the Great Cormorant has once again become a common bird on our coasts and wetlands. But these conservation successes should not obscure the reality: many species have lost a large part of their historical range, and some have never recovered their early 20th-century numbers.

“Long-term monitoring, such as censuses, is our best weapon against the shifting baseline syndrome. Without collective memory, we risk normalizing an already impoverished world,” concludes Thomas Galewski.

About the Tour du Valat

The Tour du Valat is a research institute dedicated to the conservation of Mediterranean wetlands, based in the Camargue (France), with the status of a private foundation recognized as being of public utility. Founded in 1954 by Luc Hoffmann, the Tour du Valat has since developed its research activities with one constant concern: to better understand these environments—wetlands are the most abundant and most threatened ecosystem on the planet—in order to manage them more effectively. Convinced that Mediterranean wetlands can only be preserved if human activities and the protection of natural heritage go hand in hand, the Tour du Valat has for many years been developing research and integrated management programs that encourage exchanges between users and scientists, mobilize a community of stakeholders, and promote the benefits of wetlands to decision-makers.

 

For more information

Reference :
Gaget, E., Brommer, J.E., Galewski, T. (2025). Shifting the baseline for waterbird and seabird conservation in Europe, risk assessment over one century. https://doi.org/10.1007/s10531-025-03155-1

  

Flight of  Greater Flamingo which had almost disappeared from Western Europe in the 1960s

After decades of persecution that had almost wiped it out, the Great Cormorant has once again become a common bird on our coasts and wetlands.

Credit

T.Galewski-Tour du Valat

Journal

Biodiversity and Conservation

TWO

10.1007/s10531-025-03155-1 

Method of Research

News article

Subject of Research

Animals

Article Title

Shifting the baseline for waterbird and seabird conservation in europe, risk assessment over one century

 

Farmers were already diversifying cereal cultivation in the early Neolithic period

University of Cologne

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Charred emmer grains from a grain storage found in a 
linear band ceramic settlement close to Werl in North Rhine-Westphalia

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Credit: Tanja Zerl, University of Cologne

An interdisciplinary research project on the development of the earliest forms of agriculture shows that early farming societies began to integrate new cereal varieties into their range of crops almost 7,000 years ago. A research team led by Professor Dr Silviane Scharl, Dr Astrid Röpke (both from the Department of Prehistoric Archaeology at the University of Cologne) and Professor Dr Astrid Stobbe (Goethe University Frankfurt am Main) gained deeper insights into the underlying processes and defined a more precise time frame for these innovations in agriculture. The results of the study ‘Dynamics of early agriculture - multivariate analysis of changes in crop cultivation and farming practices in the Rhineland (Germany) between the 6th and early 4th millennium BCE’ have been published in the Journal of Archaeological Science.

The study is a result of the interdisciplinary research project ‘Diversification and Change – Analysing settlement patterns and agricultural practice during the 5th millennium BC in Central Europe’ funded by the German Research Foundation. The project involves scientists from the Universities of Cologne and Frankfurt working in the fields of prehistoric archaeology, archaeobotany, vegetation history, archaeozoology and dendroarchaeology.

The first farmers in Central Europe belonged to the so-called Linear Pottery culture and populated the continent around 5,400-5,000/4,900 BC.  They cultivated almost exclusively the ancient wheat varieties emmer and einkorn, both spelt grains. During dehulling, the outer husk must be removed from the grain before further processing. It was previously known that new cereals such as naked wheat (no dehulling required) and barley were introduced during the Neolithic period, more precisely during the so-called Middle Neolithic (approx. 4,900 to 4,500 BC), although the time frame and exact processes were previously unknown.

In order to better understand these processes at a regional level, the research team collected and analysed data on archaeobotanical macroremains from 72 Neolithic sites in the Rhineland (Germany). The samples consist of charred remains of seeds that date from the late 6th to the early 4th millennium BC. They were recovered from the settlement pits of Neolithic farmers.

Using multivariate statistics, it was possible to show that there are significant differences between the Neolithic phases. Surprisingly, the study revealed that the agricultural changes characteristic of the Middle Neolithic were already recognizable at the beginning of this period. “The integration of new types of grain made agriculture more resilient and flexible. It enabled not only the cultivation of winter crops but also summer crops and the potential use of a greater variety of soils as well as a possible reduction in labour,” says Professor Scharl. A steady increase in cereal diversity was also demonstrated by a diversity analysis. This analysis shows that the Neolithic farmers achieved the greatest diversity in the cultivation spectrum around 4,350 BC. It then declines again significantly, indicating a further transformation of the agricultural system, which is the subject of further research. There are some indications that livestock farming, especially cattle farming, increased in the following period.

The current study shows that Neolithic farmers developed agricultural techniques and practices over time that allowed them to react to regional and changing environmental conditions with great flexibility. In regions with harsher environmental conditions, cereals were cultivated that could also produce a yield under these conditions. This demonstrates a deep knowledge of the environment and an adaptation of food production strategies by the farmers.

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Journal

Journal of Archaeological Science

TWO

10.1016/j.jas.2025.106369 

Method of Research

Data/statistical analysis

Subject of Research

Not applicable

Article Title

Dynamics of early agriculture - multivariate analysis of changes in crop cultivation and farming practices in the Rhineland (Germany) between the 6th and early 4th millennium BCE

9/11 study shows how toxic exposures may lead to blood cancers

Albert Einstein College of Medicine

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Amit Verma, M.D., Montefiore Einstein Comprehensive Cancer Center

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Credit: Albert Einstein College of Medicine

October 1, 2025—(BRONX, NY)—A study led by researchers at the National Cancer Institute-designated Montefiore Einstein Comprehensive Cancer Center (MECCC) has found that mutations in blood-forming cells may explain the increased risk for leukemia and other blood disorders among first responders exposed to the 9/11 World Trade Center (WTC) disaster site and its toxic dust. The study also points to a novel strategy for use against inflammation and blood disorders associated with environmental toxins. The research was published today in Cancer Discovery, a journal of the American Association for Cancer Research.

“Our findings provide new insights into the long-term health impacts of environmental catastrophes, such as wildfires, and suggest targeted interventions for those affected by 9/11 or similar disasters,” said study leader Amit Verma, M.D., associate director for translational science, MECCC; chair of oncology at Albert Einstein College of Medicine and Montefiore Health System; and professor of oncology, of medicine, and of developmental & molecular biology at Einstein.

The collapse of the WTC produced tremendous quantities of airborne particulate matter—a potent mixture of carcinogens and genetically toxic substances to which an estimated 400,000 responders, area workers, and residents were exposed. In previous studies, Montefiore Einstein researchers noted a higher incidence of cancers, cardiovascular disease, and other health problems among 9/11 first responders compared with the general population. However, few studies have examined how such environmental exposures can lead to blood cancers.

Toxic Dust and Unique Genetic Changes
For this study, Einstein scientists sequenced blood samples from nearly 1,000 first responders who were exposed to the WTC site, along with blood from two control groups: 255 firefighters who were not at the WTC and 198 unexposed people in the general population. All samples were collected between December 2013 and October 2015. The toxic 9/11 dust cloud was found to be associated with mutations in the blood cells of many responders.

Compared with control-group individuals, WTC-exposed first responders had a significantly higher prevalence of clonal hematopoiesis (CH)—a condition in which a group, or clone, of a person’s blood-forming (hematopoietic) stem cells contain the same gene mutations. Typically associated with aging, CH is a pre-cancerous condition known to increase the risk of blood cancer and inflammation.

Overall, first responders with elevated CH mutations were nearly six times likelier to develop leukemia than those without the mutations. Exposure of mice to WTC dust led to high levels of inflammatory markers and an increase in mutant cells, suggesting that toxin-induced inflammation plays a key role in propagating the blood cells.

In addition, researchers found that younger first responders (those under age 60) with elevated CH possessed a set of gene mutations quite distinct from the classic mutations associated with age-related CH—indicating that that the gene-altering toxins in WTC dust may contribute to cancer risk by accelerating the aging process.

Identifying a Protein Culprit
To learn how exposure to toxins is associated with CH mutations and increased leukemia risk, the researchers tested the dust collected from the WTC site in a mouse model. The dust caused an inflammatory response traced to the protein IL1RAP; the high levels of IL1RAP were associated with increased numbers of defective blood-forming stem cells—mimicking the high CH levels observed in the first responders. Importantly, the researchers found they could prevent the rise in defective mutant cells by knocking out the gene that codes for IL1RAP. 

“We now know that IL1RAP is a very attractive target for strategies aimed at suppressing the growth of these mutant clones,” said Dr. Verma, who is also the Susan Resnick Fisher Academic Chair in Brain Cancer Research at Einstein. He noted that IL1RAP has been implicated in many types of cancer as well in inflammatory and autoimmune diseases and that several drugs aimed at inhibiting the protein are being evaluated in clinical trials.

“Our work has implications for people exposed to wildfires, air pollution, military burn pits, and many other exposures,” said Dr. Verma. “By screening toxin-exposed populations for CH, we could identify people at risk for blood cancers and then potentially treat or even prevent those cancers by targeting IL1RAP.”

 

The study is titled, “Elevated clonal hematopoiesis in environmentally exposed 9/11 first responders has distinct age-related patterns and relies on IL1RAP for clonal expansion.” The co-corresponding authors are Divij Verma, Ph.D., Ulrich Steidl, M.D., Ph.D., both at Einstein; David Prezant, M.D., at Einstein and the Fire Department of the City of New York; and Michael Savona, M.D., at Vanderbilt-Ingram Cancer Center, Nashville, TN. Rachel Zeig-Owens, Dr.P.H., and David Goldfarb, M.D., are co-first author with Drs. D. Verma. The work was in part supported by the Jane and Myles Dempsey Fund, the Neil Hirsch Foundation, the Edward John and Patricia Rosenwald Foundation, Leukemia Lymphoma Society, the Edward P. Evans MDS Foundation and the Valvano Foundation

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About Albert Einstein College of Medicine 
Albert Einstein College of Medicine is one of the nation’s premier centers for research, medical education and clinical investigation. During the 2024-25 academic year, Einstein is home to 712 M.D. students, 226 Ph.D. students, 112 students in the combined M.D./Ph.D. program, and approximately 250 postdoctoral research fellows. The College of Medicine has more than 2,000 full-time faculty members located on the main campus and at its clinical affiliates. In 2024, Einstein received more than $192 million in awards from the National Institutes of Health. This includes the funding of major research centers at Einstein in cancer, aging, intellectual development disorders, diabetes, clinical and translational research, liver disease, and AIDS. Other areas where the College of Medicine is concentrating its efforts include developmental brain research, neuroscience, cardiac disease, and initiatives to reduce and eliminate ethnic and racial health disparities. Its partnership with Montefiore, the University Hospital and academic medical center for Einstein, advances clinical and translational research to accelerate the pace at which new discoveries become the treatments and therapies that benefit patients. For more information, please visit einsteinmed.edu, follow us on Twitter, Facebook, Instagram, LinkedIn, and view us on YouTube. 

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Journal

Cancer Discovery

Method of Research

Randomized controlled/clinical trial

Subject of Research

People

Article Title

“Elevated clonal hematopoiesis in environmentally exposed 9/11 first responders has distinct age-related patterns and relies on IL1RAP for clonal expansion.”

Article Publication Date

1-Oct-2025