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HOME | CROWTHER LABABOUT USOUR RESEARCHRESTORATIONMAPSMEDIACOVID-19
AND THE ENVIRONMENT
Conserve nature. Protect nature. Restore nature. We help generate a better understanding of Earth’s ecology and aim to inspire responsible ecosystem restoration. At Crowther Lab, our team believes that conserving, protecting and restoring nature can help fight climate change and enhance human health and wellbeing. Read more.MEET THE LAB
We are theoretical ecologists, restoration experts, and data scientists studying global ecosystems and generating knowledge to protect biodiversity and address climate change. RESTORATION NETWORKS A mapping platform to share ecological information. In 2021, we launched Restor to bring transparency and connectivity to the global biodiversity movement. We have connected over 50,000 locations where someone is farming, conserving or restoring nature around the world to promote biodiversity. Restor is an ever-growing global network.MAPS | CROWTHER LAB
A mapping platform to share ecological information. We generate maps. Lots of them. Each map layer in this tool represents the outputs from various models produced by the scientific community providing key data about our ecosystems. Explore this data by either drawing a polygon (drawing tool) or selecting a country (search button).ECOLOGY 101
With science! Our team is made up of: fungi enthusiasts, dirt lovers, nematode ninjas, science communicators, biodiversity fanatics and climate crusaders. We’re inspired by nature, driven by science! By working together in an interdisciplinary way, we use science to understand and address climate change. Meet The Lab. PAPER IN A DAY, OR HOW TO MAKE THE MOST OF OUR Teamwork makes the dream work! Our members have split up in groups based on their expertise. During a Paper in a Day everyone from the lab comes together and brings their insights on an ongoing research project.The main idea behind this type of activity is to make the most of the lab’s interdisciplinarity. OPEN POSITION SOIL ECOLOGY Publications will be assessed based on their content and match to the profile requested. This is an exciting joint collaborative position between the Dryland Ecology and Global Change Lab (DryLab) at the University of Alicante (UA; Alicante), the Crowther Lab at ETH Zurich and the BioFun lab at Pablo de Olavide University (Seville). The post TREE RESTORATION POTENTIAL, Q&A By Crowther Lab Our paper on the restoration potential of forests received an overwhelming reaction in the media. We are so delighted for all the wonderful comments and discussion. And the conversation also raised several issues from a few people. These are all important considerations and they are points that we have been well aware CLIMATIC CONTROLS OF DECOMPOSITION DRIVE THE GLOBAL LETTERRESEARCH these proposed biogeographical patterns and their climate drivers are lacking. To address this, we compiled a global ground-sourced survey FUNGAL INTERACTIONS REDUCE CARBON USE EFFICIENCY LETTER Fungal interactions reduce carbon use efficiency Daniel S. Maynard,1,2* Thomas W. Crowther,1,3 and Mark A. Bradford1 Abstract The efficiency by which fungi decompose organic matter contributes to the amount of carbon that HOME | CROWTHER LABABOUT USOUR RESEARCHRESTORATIONMAPSMEDIACOVID-19AND THE ENVIRONMENT
Conserve nature. Protect nature. Restore nature. We help generate a better understanding of Earth’s ecology and aim to inspire responsible ecosystem restoration. At Crowther Lab, our team believes that conserving, protecting and restoring nature can help fight climate change and enhance human health and wellbeing. Read more.MEET THE LAB
We are theoretical ecologists, restoration experts, and data scientists studying global ecosystems and generating knowledge to protect biodiversity and address climate change. RESTORATION NETWORKS A mapping platform to share ecological information. In 2021, we launched Restor to bring transparency and connectivity to the global biodiversity movement. We have connected over 50,000 locations where someone is farming, conserving or restoring nature around the world to promote biodiversity. Restor is an ever-growing global network.MAPS | CROWTHER LAB
A mapping platform to share ecological information. We generate maps. Lots of them. Each map layer in this tool represents the outputs from various models produced by the scientific community providing key data about our ecosystems. Explore this data by either drawing a polygon (drawing tool) or selecting a country (search button).ECOLOGY 101
With science! Our team is made up of: fungi enthusiasts, dirt lovers, nematode ninjas, science communicators, biodiversity fanatics and climate crusaders. We’re inspired by nature, driven by science! By working together in an interdisciplinary way, we use science to understand and address climate change. Meet The Lab. PAPER IN A DAY, OR HOW TO MAKE THE MOST OF OUR Teamwork makes the dream work! Our members have split up in groups based on their expertise. During a Paper in a Day everyone from the lab comes together and brings their insights on an ongoing research project.The main idea behind this type of activity is to make the most of the lab’s interdisciplinarity. OPEN POSITION SOIL ECOLOGY Publications will be assessed based on their content and match to the profile requested. This is an exciting joint collaborative position between the Dryland Ecology and Global Change Lab (DryLab) at the University of Alicante (UA; Alicante), the Crowther Lab at ETH Zurich and the BioFun lab at Pablo de Olavide University (Seville). The post TREE RESTORATION POTENTIAL, Q&A By Crowther Lab Our paper on the restoration potential of forests received an overwhelming reaction in the media. We are so delighted for all the wonderful comments and discussion. And the conversation also raised several issues from a few people. These are all important considerations and they are points that we have been well aware CLIMATIC CONTROLS OF DECOMPOSITION DRIVE THE GLOBAL LETTERRESEARCH these proposed biogeographical patterns and their climate drivers are lacking. To address this, we compiled a global ground-sourced survey FUNGAL INTERACTIONS REDUCE CARBON USE EFFICIENCY LETTER Fungal interactions reduce carbon use efficiency Daniel S. Maynard,1,2* Thomas W. Crowther,1,3 and Mark A. Bradford1 Abstract The efficiency by which fungi decompose organic matter contributes to the amount of carbon thatHOW TO GET INVOLVED
We helped convene a global coalition of leaders in science, conservation, restoration, development and sustainability around four high-level principles for nature-based solutions. The Together With Nature principles provide a framework to responsibly tackle the climate crisis, restore biodiversity, and benefit planetary health andhuman wellbeing.
MAPS | CROWTHER LAB
A mapping platform to share ecological information. We generate maps. Lots of them. Each map layer in this tool represents the outputs from various models produced by the scientific community providing key data about our ecosystems. Explore this data by either drawing a polygon (drawing tool) or selecting a country (search button). COVID-19 AND THE ENVIRONMENT: CAUSES AND CONSEQUENCES By Crowther Lab In recent months, we’ve been asked many questions about Covid-19 and the environment. This Q&A is a brief review of what experts are saying – from science to policy. Several viruses exist in the coronavirus family. The respiratory disease called Covid-19 is caused by one of them: the SARS-CoV-2. Covid-19 is aRESEARCH SPOTLIGHT
Forecasting autumn leaf senescence in deciduous trees. By studying the drivers of autumn senescence we were able to show that photosynthesis has a crucial role in autumn onset, constraining the seasonal carbon uptake of temperate forests.SCIENTIFIC NETWORKS
The Global Soil Biodiversity Initiative (GSBI) is designed to create a global collaboration of scientists, all with the goals of informing the public, promoting this information into environmental policy, and overall creating a platform for the current and future sustainability of soils. The network made of more than a hundred scientists, all over the world, have built up a dataset containingJOIN THE LAB
At Crowther Lab, we value a supportive, positive, challenging and fun work environment. We are an equal opportunity, inclusive and family friendly employer. We strive for diversity and aim to hire, train and support the next generation of students, leading scientists and expertstaff. Join us!
CONTACT US | CROWTHER LAB Contact Us. Mutualism noun: a relationship between two species of organisms in which both benefit from the association. Let’s do that! We would love to hear from you. For press enquiries contact: press@crowtherlab.com. For job enquiries, please see Join the Lab. Address: Universitätstrasse 16, 8092Zürich.
PAPER IN A DAY, OR HOW TO MAKE THE MOST OF OUR Teamwork makes the dream work! Our members have split up in groups based on their expertise. During a Paper in a Day everyone from the lab comes together and brings their insights on an ongoing research project.The main idea behind this type of activity is to make the most of the lab’s interdisciplinarity. AI FOR THE ENVIRONMENT Kenza Amara is a Master’s student at ETH Zurich and is passionate about applying artificial intelligence to solve the big global problems of our time – such as climate change. By: Kenza Amara, master’s student at ETH Zurich, part of Crowther Lab and DS3Lab. Artificial intelligence (AI) for the environment: It first seems somewhat paradoxical.THE POWER OF MAPS
Maps are representations of reality condensed for human mental digestion; they can both break down and transmute human paradigms in a matter of moments. If we want to stop the glaciers from melting, the forests from falling, and the deserts from expanding, then we need to show enough people (especially the people with wealth and influence)maps
HOME | CROWTHER LABABOUT USOUR RESEARCHRESTORATIONMAPSMEDIACOVID-19AND THE ENVIRONMENT
Conserve nature. Protect nature. Restore nature. We help generate a better understanding of Earth’s ecology and aim to inspire responsible ecosystem restoration. At Crowther Lab, our team believes that conserving, protecting and restoring nature can help fight climate change and enhance human health and wellbeing. Read more.MEET THE LAB
We are theoretical ecologists, restoration experts, and data scientists studying global ecosystems and generating knowledge to protect biodiversity and address climate change. RESTORATION NETWORKS A mapping platform to share ecological information. In 2021, we launched Restor to bring transparency and connectivity to the global biodiversity movement. We have connected over 50,000 locations where someone is farming, conserving or restoring nature around the world to promote biodiversity. Restor is an ever-growing global network.MAPS | CROWTHER LAB
A mapping platform to share ecological information. We generate maps. Lots of them. Each map layer in this tool represents the outputs from various models produced by the scientific community providing key data about our ecosystems. Explore this data by either drawing a polygon (drawing tool) or selecting a country (search button).ECOLOGY 101
With science! Our team is made up of: fungi enthusiasts, dirt lovers, nematode ninjas, science communicators, biodiversity fanatics and climate crusaders. We’re inspired by nature, driven by science! By working together in an interdisciplinary way, we use science to understand and address climate change. Meet The Lab. PAPER IN A DAY, OR HOW TO MAKE THE MOST OF OUR Teamwork makes the dream work! Our members have split up in groups based on their expertise. During a Paper in a Day everyone from the lab comes together and brings their insights on an ongoing research project.The main idea behind this type of activity is to make the most of the lab’s interdisciplinarity. OPEN POSITION SOIL ECOLOGY Publications will be assessed based on their content and match to the profile requested. This is an exciting joint collaborative position between the Dryland Ecology and Global Change Lab (DryLab) at the University of Alicante (UA; Alicante), the Crowther Lab at ETH Zurich and the BioFun lab at Pablo de Olavide University (Seville). The post TREE RESTORATION POTENTIAL, Q&A By Crowther Lab Our paper on the restoration potential of forests received an overwhelming reaction in the media. We are so delighted for all the wonderful comments and discussion. And the conversation also raised several issues from a few people. These are all important considerations and they are points that we have been well aware CLIMATIC CONTROLS OF DECOMPOSITION DRIVE THE GLOBAL LETTERRESEARCH these proposed biogeographical patterns and their climate drivers are lacking. To address this, we compiled a global ground-sourced survey FUNGAL INTERACTIONS REDUCE CARBON USE EFFICIENCY LETTER Fungal interactions reduce carbon use efficiency Daniel S. Maynard,1,2* Thomas W. Crowther,1,3 and Mark A. Bradford1 Abstract The efficiency by which fungi decompose organic matter contributes to the amount of carbon that HOME | CROWTHER LABABOUT USOUR RESEARCHRESTORATIONMAPSMEDIACOVID-19AND THE ENVIRONMENT
Conserve nature. Protect nature. Restore nature. We help generate a better understanding of Earth’s ecology and aim to inspire responsible ecosystem restoration. At Crowther Lab, our team believes that conserving, protecting and restoring nature can help fight climate change and enhance human health and wellbeing. Read more.MEET THE LAB
We are theoretical ecologists, restoration experts, and data scientists studying global ecosystems and generating knowledge to protect biodiversity and address climate change. RESTORATION NETWORKS A mapping platform to share ecological information. In 2021, we launched Restor to bring transparency and connectivity to the global biodiversity movement. We have connected over 50,000 locations where someone is farming, conserving or restoring nature around the world to promote biodiversity. Restor is an ever-growing global network.MAPS | CROWTHER LAB
A mapping platform to share ecological information. We generate maps. Lots of them. Each map layer in this tool represents the outputs from various models produced by the scientific community providing key data about our ecosystems. Explore this data by either drawing a polygon (drawing tool) or selecting a country (search button).ECOLOGY 101
With science! Our team is made up of: fungi enthusiasts, dirt lovers, nematode ninjas, science communicators, biodiversity fanatics and climate crusaders. We’re inspired by nature, driven by science! By working together in an interdisciplinary way, we use science to understand and address climate change. Meet The Lab. PAPER IN A DAY, OR HOW TO MAKE THE MOST OF OUR Teamwork makes the dream work! Our members have split up in groups based on their expertise. During a Paper in a Day everyone from the lab comes together and brings their insights on an ongoing research project.The main idea behind this type of activity is to make the most of the lab’s interdisciplinarity. OPEN POSITION SOIL ECOLOGY Publications will be assessed based on their content and match to the profile requested. This is an exciting joint collaborative position between the Dryland Ecology and Global Change Lab (DryLab) at the University of Alicante (UA; Alicante), the Crowther Lab at ETH Zurich and the BioFun lab at Pablo de Olavide University (Seville). The post TREE RESTORATION POTENTIAL, Q&A By Crowther Lab Our paper on the restoration potential of forests received an overwhelming reaction in the media. We are so delighted for all the wonderful comments and discussion. And the conversation also raised several issues from a few people. These are all important considerations and they are points that we have been well aware CLIMATIC CONTROLS OF DECOMPOSITION DRIVE THE GLOBAL LETTERRESEARCH these proposed biogeographical patterns and their climate drivers are lacking. To address this, we compiled a global ground-sourced survey FUNGAL INTERACTIONS REDUCE CARBON USE EFFICIENCY LETTER Fungal interactions reduce carbon use efficiency Daniel S. Maynard,1,2* Thomas W. Crowther,1,3 and Mark A. Bradford1 Abstract The efficiency by which fungi decompose organic matter contributes to the amount of carbon thatHOW TO GET INVOLVED
We helped convene a global coalition of leaders in science, conservation, restoration, development and sustainability around four high-level principles for nature-based solutions. The Together With Nature principles provide a framework to responsibly tackle the climate crisis, restore biodiversity, and benefit planetary health andhuman wellbeing.
MAPS | CROWTHER LAB
A mapping platform to share ecological information. We generate maps. Lots of them. Each map layer in this tool represents the outputs from various models produced by the scientific community providing key data about our ecosystems. Explore this data by either drawing a polygon (drawing tool) or selecting a country (search button). COVID-19 AND THE ENVIRONMENT: CAUSES AND CONSEQUENCES By Crowther Lab In recent months, we’ve been asked many questions about Covid-19 and the environment. This Q&A is a brief review of what experts are saying – from science to policy. Several viruses exist in the coronavirus family. The respiratory disease called Covid-19 is caused by one of them: the SARS-CoV-2. Covid-19 is aRESEARCH SPOTLIGHT
Forecasting autumn leaf senescence in deciduous trees. By studying the drivers of autumn senescence we were able to show that photosynthesis has a crucial role in autumn onset, constraining the seasonal carbon uptake of temperate forests.SCIENTIFIC NETWORKS
The Global Soil Biodiversity Initiative (GSBI) is designed to create a global collaboration of scientists, all with the goals of informing the public, promoting this information into environmental policy, and overall creating a platform for the current and future sustainability of soils. The network made of more than a hundred scientists, all over the world, have built up a dataset containingJOIN THE LAB
At Crowther Lab, we value a supportive, positive, challenging and fun work environment. We are an equal opportunity, inclusive and family friendly employer. We strive for diversity and aim to hire, train and support the next generation of students, leading scientists and expertstaff. Join us!
CONTACT US | CROWTHER LAB Contact Us. Mutualism noun: a relationship between two species of organisms in which both benefit from the association. Let’s do that! We would love to hear from you. For press enquiries contact: press@crowtherlab.com. For job enquiries, please see Join the Lab. Address: Universitätstrasse 16, 8092Zürich.
PAPER IN A DAY, OR HOW TO MAKE THE MOST OF OUR Teamwork makes the dream work! Our members have split up in groups based on their expertise. During a Paper in a Day everyone from the lab comes together and brings their insights on an ongoing research project.The main idea behind this type of activity is to make the most of the lab’s interdisciplinarity. AI FOR THE ENVIRONMENT Kenza Amara is a Master’s student at ETH Zurich and is passionate about applying artificial intelligence to solve the big global problems of our time – such as climate change. By: Kenza Amara, master’s student at ETH Zurich, part of Crowther Lab and DS3Lab. Artificial intelligence (AI) for the environment: It first seems somewhat paradoxical.THE POWER OF MAPS
Maps are representations of reality condensed for human mental digestion; they can both break down and transmute human paradigms in a matter of moments. If we want to stop the glaciers from melting, the forests from falling, and the deserts from expanding, then we need to show enough people (especially the people with wealth and influence)maps
HOME | CROWTHER LABABOUT USOUR RESEARCHRESTORATIONMAPSMEDIACOVID-19AND THE ENVIRONMENT
Restor is a free, open-access platform founded by Crowther Lab with the goal to improve transparency and connectivity across the entire global restoration movement.MEET THE LAB
We are theoretical ecologists, restoration experts, and data scientists studying global ecosystems and generating knowledge to protect biodiversity and address climate change. RESTORATION NETWORKS A mapping platform to share ecological information. In 2021, we launched Restor to bring transparency and connectivity to the global biodiversity movement. We have connected over 50,000 locations where someone is farming, conserving or restoring nature around the world to promote biodiversity.MAPS | CROWTHER LAB
In 2020 we founded Restor – a platform rooted in science that enables everyone, everywhere to engage in the global restoration movement. Through transparency and knowledge sharing, Restor brings this ecological data together with actors of all sizes and scopes to drive change at scale.ECOLOGY 101
Ecology 101 Understand the science with Ecology 101: Want to learn more about the fundamental of ecology? Check our research spotlights, blog articles, videos and podcasts TREE RESTORATION POTENTIAL, Q&A By Crowther Lab Our paper on the restoration potential of forests received an overwhelming reaction in the media. We are so delighted for all the wonderful comments and discussion. And the conversation also raised several issues from a few people. These are all important considerations and they are points that we have been well aware FUNGAL INTERACTIONS REDUCE CARBON USE EFFICIENCY LETTER Fungal interactions reduce carbon use efficiency Daniel S. Maynard,1,2* Thomas W. Crowther,1,3 and Mark A. Bradford1 Abstract The efficiency by which fungi decompose organic matter contributes to the amount of carbon that CLIMATIC CONTROLS OF DECOMPOSITION DRIVE THE GLOBAL LETTERRESEARCH these proposed biogeographical patterns and their climate drivers are lacking. To address this, we compiled a global ground-sourced survey COMPETITIVE NETWORK DETERMINES THE DIRECTION OF THE Competitive network determines the direction of the diversity–function relationship Daniel S. Maynarda,b,1, Thomas W. Crowtherc,d, and Mark A. Bradfordb aDepartment of Ecology & Evolution, University of Chicago, Chicago, IL 60637; bSchool of Forestry and Environmental Studies, Yale University, New Haven, CT, 06511; cDepartment of Terrestrial Ecology, Netherlands Institute of Ecology,6708
TEMPERATURE RESPONSE OF SOIL RESPIRATION LARGELY UNALTERED estimated at ∼90 Pg C·yr−1 (2). Rising temperatures are expected to stimulate soil respiration (3), both by accelerating rates of C cycling via autotrophic respiration and by providing a potentiallypower-
HOME | CROWTHER LABABOUT USOUR RESEARCHRESTORATIONMAPSMEDIACOVID-19AND THE ENVIRONMENT
Restor is a free, open-access platform founded by Crowther Lab with the goal to improve transparency and connectivity across the entire global restoration movement.MEET THE LAB
We are theoretical ecologists, restoration experts, and data scientists studying global ecosystems and generating knowledge to protect biodiversity and address climate change. RESTORATION NETWORKS A mapping platform to share ecological information. In 2021, we launched Restor to bring transparency and connectivity to the global biodiversity movement. We have connected over 50,000 locations where someone is farming, conserving or restoring nature around the world to promote biodiversity.MAPS | CROWTHER LAB
In 2020 we founded Restor – a platform rooted in science that enables everyone, everywhere to engage in the global restoration movement. Through transparency and knowledge sharing, Restor brings this ecological data together with actors of all sizes and scopes to drive change at scale.ECOLOGY 101
Ecology 101 Understand the science with Ecology 101: Want to learn more about the fundamental of ecology? Check our research spotlights, blog articles, videos and podcasts TREE RESTORATION POTENTIAL, Q&A By Crowther Lab Our paper on the restoration potential of forests received an overwhelming reaction in the media. We are so delighted for all the wonderful comments and discussion. And the conversation also raised several issues from a few people. These are all important considerations and they are points that we have been well aware FUNGAL INTERACTIONS REDUCE CARBON USE EFFICIENCY LETTER Fungal interactions reduce carbon use efficiency Daniel S. Maynard,1,2* Thomas W. Crowther,1,3 and Mark A. Bradford1 Abstract The efficiency by which fungi decompose organic matter contributes to the amount of carbon that CLIMATIC CONTROLS OF DECOMPOSITION DRIVE THE GLOBAL LETTERRESEARCH these proposed biogeographical patterns and their climate drivers are lacking. To address this, we compiled a global ground-sourced survey COMPETITIVE NETWORK DETERMINES THE DIRECTION OF THE Competitive network determines the direction of the diversity–function relationship Daniel S. Maynarda,b,1, Thomas W. Crowtherc,d, and Mark A. Bradfordb aDepartment of Ecology & Evolution, University of Chicago, Chicago, IL 60637; bSchool of Forestry and Environmental Studies, Yale University, New Haven, CT, 06511; cDepartment of Terrestrial Ecology, Netherlands Institute of Ecology,6708
TEMPERATURE RESPONSE OF SOIL RESPIRATION LARGELY UNALTERED estimated at ∼90 Pg C·yr−1 (2). Rising temperatures are expected to stimulate soil respiration (3), both by accelerating rates of C cycling via autotrophic respiration and by providing a potentiallypower-
COVID-19 AND THE ENVIRONMENT: CAUSES AND CONSEQUENCES By Crowther Lab In recent months, we’ve been asked many questions about Covid-19 and the environment. This Q&A is a brief review of what experts are saying – from science to policy. Several viruses exist in the coronavirus family. The respiratory disease called Covid-19 is caused by one of them: the SARS-CoV-2. Covid-19 is aMAPS | CROWTHER LAB
In 2020 we founded Restor – a platform rooted in science that enables everyone, everywhere to engage in the global restoration movement. Through transparency and knowledge sharing, Restor brings this ecological data together with actors of all sizes and scopes to drive change at scale. CONTACT US | CROWTHER LAB Crowther Lab at ETH Zürich. The Crowther Lab at ETH Zürich is an interdisciplinary research group which aims to generate a better understanding of Earth’s ecology in order to understand and address biodiversity loss and climate change.HOW TO GET INVOLVED
The interdisciplinary nature of our research means that we work with many different groups of people, including scientists, NGOs, local governments, international governmental organizations and the general public from all over the world.SCIENTIFIC NETWORKS
The Global Soil Biodiversity Initiative (GSBI) is designed to create a global collaboration of scientists, all with the goals of informing the public, promoting this information into environmental policy, and overall creating a platform for the current and future sustainability of soils. The network made of more than a hundred scientists, all over the world, have built up a dataset containingBLOG | CROWTHER LAB
AI for the environment. Kenza Amara is a Master's student at ETH Zurich and is passionate about applying artificial intelligence to solve the big global problems of our time - such as climate change. OPEN POSITION SOIL ECOLOGY We are seeking for a postdoctoral researcher to work with a series of global databases compiled in the frameworks of the BIODESERT, CLIMIFUN and MUSGONET research projects, funded by the European Research Council, the Marie Skłodowska-Curie program and the British Ecological Society, respectively. These databases contain information on multiple surrogates of ecosystem structure and WE EXPLORED THE EFFECT OF TREE POSITIVE BIODIVERSITY RESEARCH ARTICLE FOREST ECOLOGY Positive biodiversity-productivity relationship predominant in global forests Jingjing Liang, 1* Thomas W. Crowther,2,3† Nicolas Picard,4 Susan Wiser,5 Mo Zhou, Giorgio Alberti,6 Ernst-Detlef Schulze,7 A. David McGuire,8 Fabio Bozzato,9 Hans Pretzsch,10 Sergio de-Miguel,11,12 Alain Paquette,13 Bruno Hérault,14 Michael Scherer-Lorenzen,15 Christopher B UNDERSTANDING CLIMATE CHANGE FROM A GLOBAL ANALYSIS OF RESEARCH ARTICLE Understanding climate change from a global analysis of city analogues Jean-Francois Bastin ID 1*, Emily Clark1, Thomas Elliott1, Simon Hart2, Johan van den Hoogen ID 1, Iris Hordijk ID 1, Haozhi Ma1, Sabiha Majumder1, Gabriele Manoli ID 3, Julia Maschler1, Lidong Mo1, Devin Routh1, Kailiang Yu1, Constantin M. Zohner1, Thomas W. Crowther1 1 Crowther Lab, Department of SOIL BIOLOGY & BIOCHEMISTRY Environmental stress response limits microbial necromass contributions to soil organic carbon Thomas W. Crowther*, Noah W. Sokol, Emily E. Oldfield, Daniel S. Maynard, Stephen M. Thomas, Mark A. BradfordSkip to content
Understanding and addressing global climate change and biodiversity loss requires an ecologically-informed knowledge of Earth systemdynamics.
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Inspired by nature.
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"To address climate change, we urgently need to cut greenhouse gas emissions. In combination, natural climate solutions can be powerful tools to draw down the excess carbon from the atmosphere. When done in a socially and ecologically responsible way, the conservation and restoration of ecosystems can enhance global biodiversity and humanwellbeing."
GUIDING RESTORATION AND CLIMATE MITIGATION PROJECTS ACROSS THE WORLD WITH CUTTING EDGE ECOLOGICAL SCIENCE. LIMITED ADVANCE OF SPRING LEAF-OUT Interplay of leaf-out drivers and projection under future climate REVIEW: MICROBIAL COMMUNITIES & SOIL CARBON STOCKS How different microbial groups and their physiology affect soil organic carbon formation URBAN HEAT ISLANDS, CLIMATE AND VEGETATION Green cover in cities a good foundation for climate action. REVIEW: THE GLOBAL SOIL COMMUNITY Current state of science relating soil organisms to biogeochemicalprocesses.
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WHO WE ARE AND WHAT WE DO We are Earth scientists, remote sensing experts, community ecologists, ecosystem ecologists, Earth system modellers, programmers, physiologists, mathematicians, molecular biologists, physicists and biochemists. While most labs in the world focus on one of these areas, our work is interdisciplinary, identifying the most important questions from different angles and focusing on holistic results.View more
LATEST NEWS AND EVENTS SMELLS LIKE TEAM SPIRIT Emily is sharing her feeling about her journey in the Crowther Lab GLOBAL HEATING: LONDON TO HAVE CLIMATE SIMILAR TO BARCELONA BY 2050 80% of cities to undergo dramatic changes GLOBAL SCALE TREE PLANTING Mind-blowing potential' to tackle climate crisis RESTORING THE WORLD'S FORESTS Potential to capture two-thirds of the human carbon in the atmosphereMARCH NEWSLETTER
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