The elephant in the conference room: reducing the carbon footprint of aquatic science meetings

IF 5.1 2区 地球科学 Q1 LIMNOLOGY Limnology and Oceanography Letters Pub Date : 2024-05-10 DOI:10.1002/lol2.10402
Marie-Elodie Perga, Thorsten Dittmar, Damien Bouffard, Emma Kritzberg
{"title":"The elephant in the conference room: reducing the carbon footprint of aquatic science meetings","authors":"Marie-Elodie Perga,&nbsp;Thorsten Dittmar,&nbsp;Damien Bouffard,&nbsp;Emma Kritzberg","doi":"10.1002/lol2.10402","DOIUrl":null,"url":null,"abstract":"<p>The ASLO community is firmly committed to a sustainable future, and themes of the past conferences often infer a link between aquatic systems evolution and climate change. At the latest Aquatic Sciences Meeting (ASM) in 2023, climate change and carbon-centered topics were salient themes, making up to 50% of all contributions (Fig. 1). Many keynotes were remarked on for their willingness to engage toward actions and solutions and go beyond the sole report of dangers and threats posed by climate change and other overpassed planetary limits.</p><p>Taking part in international scientific conferences such as ASM makes an integrated component of our academic life. Expectations from scientific conferences are to provide an opportunity to stay informed about the latest developments, disseminate one's own research, discuss perspectives and ideas, and get inspired. Scientific conferences also foster a sense of belonging to a community and offer a social context in which to expand research networks. In line with this, academic incentives and travel support are high and on the rise (Bojica et al. <span>2022</span>). Yet, scientific conferencing also generates significant CO<sub>2</sub> emissions at the Worldwide scale. Eighty percent of the carbon footprint of international conferences is made up of air travel, with a lower estimate of roughly 1 tCO<sub>2−e</sub> (metric tons of carbon dioxide equivalent, that is, the number of metric tons of CO<sub>2</sub> emissions with the same global warming potential as one metric ton of another greenhouse gas) emitted per attendee for transportation (Klower et al. <span>2020</span>; Tao et al. <span>2021</span>). If half of the 8 million worldwide academics were to take part annually in an international conference (Sarabipour et al. <span>2021</span>), transporting academics to international conferences would generate a back-of-the-envelope estimate of 4 MtCO<sub>2−e</sub>, rivaling with annual emissions of countries such as Niger, Nicaragua, or Latvia (Crippa et al. <span>2022</span>).</p><p>Meeting the Paris Agreement to contain warming to the 1.5°C target requires that the emissions per capita fall down to 2.3 tCO<sub>2−e</sub> by 2030 (Gore <span>2021</span>), while, due to their hypermobile lifestyle, the sole professional travel-related annual emissions for academics can easily reach 6 tCO<sub>2−e</sub> per capita (Ciers et al. <span>2019</span>). The significance of the carbon footprint of scientific conferences has led individual academics and scientific societies to question the current model for conferencing (Malcolm <span>2008</span>; Achten et al. <span>2013</span>; Arsenault et al. <span>2019</span>; Klower et al. <span>2020</span>; Tao et al. <span>2021</span>). Despite extending beyond our immediate community, this issue holds particular significance for us within the ASLO community, as we travel the World and generate such greenhouse emissions specifically to meet and devise climate-related matters and the resilience of aquatic systems.</p><p>It is not the 1<sup>st</sup> time that the carbon footprint of ASLO conferences has been raised (Harazin <span>2020</span>). However, we are unaware of any previous attempt to quantify the carbon footprint of ASM, although the exercise has already been undertaken for closely related scientific communities, such as the Ecological Society of America (Alexandra and Jarrett <span>2011</span>) or the American Geophysical Union (Klower et al. <span>2020</span>). We believe that this sizing exercise is important for two reasons. First, experience shows that even scholars working in scientific fields closely related to the issues of climate change tend to underestimate their own travel-related emissions (Whitmarsh et al. <span>2020</span>; Passalacqua <span>2021</span>). Second, quantifying the C-footprint of ASLO conferences is a required benchmark from which we can explore the efficiency of scenarios aimed at significantly reducing the carbon footprint of ASM while preserving its essence.</p><p>Many ways are being evoked to engage in a more sustainable conferencing model (moving online or hybrid, optimizing location, setting meatless conditions; Leochico et al. <span>2021</span>), in which actual efficiency in reducing emissions is rarely quantitatively assessed. Going 100% online appeared, at 1<sup>st</sup> sight, as the most straightforward way to run conferences for &lt;5% CO<sub>2−e</sub> emissions of traditional conferences (Klower et al. <span>2020</span>; Tao et al. <span>2021</span>). However, our past 3-yr virtual experience has shown that it largely undermines several of the benefits we expect from conferencing and face-to-face interactions (Brucks and Levav <span>2022</span>). Is there then a way-out, by which we could significantly reduce the carbon footprint of conferences while escaping the ghost of going fully online?</p><p>We estimated the travel-related CO<sub>2−e</sub> emissions of ASM from 2004 to 2023, from a computational approach similar to Klower et al.'s (<span>2020</span>) study. Based on anonymized attendees' data for each ASM, we computed the distances between the attendees' closest airport and the main airport of the conference venues. For a 1<sup>st</sup> assessment, we assumed that all attendees flew to the conference location and used a conservative estimate (only direct flights in economy class). Computed emissions (CO<sub>2−e</sub>) included greenhouse gases produced by fuel consumption, emissions associated with extracting, refining, and transporting fuels, and changes in radiative forcing due to water vapor emissions at higher altitudes (average emission factor of 163 gCO<sub>2−e</sub> km<sup>−1</sup>). In a 2<sup>nd</sup> step, we considered that attendees within 1000 km of the conference venue used landbound-based transportation (i.e., rail, coach, or shared car, considering an average emission factor of 30 gCO<sub>2−e</sub> km<sup>−1</sup>). All conversion factors were extracted from the greenhouse gas reporting of United Kingdom (Department for Energy Security and Net Zero and Department for Business <span>2022</span>). We also assessed the CO<sub>2−e</sub> emissions saved by the ASM 2023 initiative of meatless catering, considering that a meat-based and a vegetarian meal corresponds respectively to 3.07 and 0.68 kgCO<sub>2−e</sub> per capita (Takacs et al. <span>2022</span>). For methodological details and reproducibility of the essay, we refer to our GitHub (<i>see</i> Data availability statement).</p><p>Total CO<sub>2−e</sub> emissions for a 1-week ASLO conference ranged between 0.5 and 4.5 ktCO<sub>2−e</sub> over the past 20 yr, with an average value of 2.1 ktCO<sub>2−e</sub> (Fig. 2a). 56% of travel-related emissions were due to long-haul flights (&gt;4000 km one way). The interannual variability of total emissions results from both the conference's location (Fig. 2b) and the attendance (Fig. 2c). Mean emissions per attendee were 1.3 tCO<sub>2−e</sub>, a number that is comparable with what had been estimated for international conferences of other scientific societies (Klower et al. <span>2020</span>), but varied considerably depending on the venue. Islander venues generated a 53% increase of the emissions per attendee, with record emissions from conferences held in Honolulu. Finally, the delocalization of the conferences outside North America since 2006 has fulfilled the goal of ASLO to diversify the origin of attendees and increase attendance (Fig. 2c). ASM held in Europe were, on average, twice more attended than those in Northern America, and attendees from Europe or Asia preferentially attended ASM held on their own continents.</p><p>As Hawaii meetings stand out in promoting the highest emission both per conference and per attendee, excluding outskirt, islander locations is an essential lever to cut-off travel-related C-emissions for ASM (Harazin <span>2020</span>). However, mainland, central, well-connected locations still lead to per-capita emissions above 1 tCO<sub>2−e</sub>; that is, 46% of what we should emit within a full year by 2030. Rendering ASM sustainable will not be acquired by acting on conference location alone.</p><p>Seen as an immediate lever to reduce the carbon footprint of academics, more and more universities from the North are encouraging attendees to buy carbon credits. However, we argue that relying on the purchase of carbon offsets to compensate for emissions generated by scientific conferencing cannot be considered an efficient or acceptable alternative. Carbon offset projects backed by airlines fail to remove any carbon dioxide (Greenfield <span>2021</span>) and rely on overstated promises of true carbon removal (West et al. <span>2020</span>). On the carbon market, 88% of the sold offsets do not constitute any emission reduction (Probst et al. <span>2023</span>), and more than 90% of rainforest carbon offsets by the biggest certifier are worthless (West et al. <span>2023</span>), to the point that the so-called carbon offset projects could even worsen climate change. Besides being counter-effective, carbon credit is a very lucrative trade that favors those who could afford to purchase such offsets while counteracting ASLO's efforts to get more inclusive.</p><p>Shifting to multi-hub conferences is the structural change that we explore here. The principle of multi-hub conferences implies that meetings take place in several locations at the same time. Attendees go to their closest hub (Klower et al. <span>2020</span>; Parncutt et al. <span>2021</span>). Face-to-face interactions are maintained within hubs, while hubs are connected by virtual links (Parncutt et al. <span>2021</span>). Using the data for ASM 2023, whereby attendance and attendees' diversity were high, we assessed the net reduction of travel-related CO<sub>2−e</sub> emissions of shifting from the traditional to a multi-hub model for ASM (Fig. 3).</p><p>We compared flight paths and CO<sub>2−e</sub> emissions between the current traditional ASM model and scenarios of a two-hub model (one central location in Europe and one in North America) and a three-hub model (adding a central hub in Asia). Adding continental hubs significantly reduces the number of intercontinental flights (Fig. 3a–c). The sum of traveled distances decreases significantly as the number of hubs increases, from 22 million km flown in the traditional one-hub model down to 10 million km in the two-hub and 8 million km in the three-hub scenario, leading to a reduction of total CO<sub>2−e</sub> emissions by 52% and 65%, respectively (Fig. 3d). Multi-hubs contribute to reducing per-attendee emissions, with a more balanced share of the C-burden across the attendees' continent of origin (Fig. 3e).</p><p>Promoting land-bound transportation has a rather minor impact on CO<sub>2−e</sub> in a one-hub model (&lt;3% of total CO<sub>2−e</sub>). But with the multi-hub model, the potential benefit of promoting land-bound transportation is &gt;10% (Fig. 3d). Serving vegetarian food has only a symbolic impact compared to travel-related emissions in a one-hub scenario. The “meatless day” at the ASM 2023 saved 11 tCO<sub>2−e</sub>, that is, 0.3% of the total emissions of the ASM 2023. In a three-hub scenario, shifting to a meatless week (−58 tCO<sub>2−e</sub>) has the potential to decrease emissions by another 5%.</p><p>The IPCC is clear that limiting warming at manageable levels requires that all sectors do their share, and scientific societies make no exception. In the current academic model, we are stuck within a cognitive conundrum (Whitmarsh et al. <span>2020</span>): we travel the world to present our studies on the inner causes and consequences of climate change, leading to a demonstrated undermining of our scientific credibility (Attari et al. <span>2016</span>), while being part of a scientific society committed to raising public awareness on water-related environmental challenges (www.aslo.org). And yet, tackling the question of the C-footprint of conferences, and of academic activities in general, remains an uncomfortable and sensitive topic, if not a complete taboo (Higham and Font <span>2020</span>; Whitmarsh et al. <span>2020</span>).</p><p>The traditional conferencing model is “an outdated luxury the planet cannot afford anymore” (Malcolm <span>2008</span>). As shown here, low-carbon ASM will require more than a marginal fix, whereby we just avoid outskirt locations or promote carbon offsets. Here, we argue that only structural changes can lead to more sustainable conferencing. Switching to multi-hub ASLO conferences would significantly cut-off on the travel-related CO<sub>2−e</sub> emissions while maintaining efficient face-to-face scientific interactions. As multi-hub conferences develop, favoring landbound transport and serving vegetarian food also make an impactful difference, while being symbolic only in a one-hub scenario. While here we aimed only for a 1<sup>st</sup>-order demonstration of the potential of multi-hubbing, the implementation of such a model shift should come with a revision of what drives the choice of the venues, echoing concerns of Harazin (<span>2020</span>). The choice of the hub locations should be based on criteria oriented toward reducing the C-footprint, and more generally the environmental impact, over touristic attractiveness. For instance, an isochrone map could define optimal cities reachable by train within 10 h, thus incentivizing economic returns for cities and countries actively investing in railway transportation.</p><p>Some may argue that multi-hub conferences will be challenging to organize, due to time zone differences, and difficulties in managing both online and physical communication. If indeed this would imply to revise our habits, other societies, some of size comparable to the ASLO, have already undertaken the turn (such as the American Meteorological Society in 2022 and the Royal Geographical Society in 2023), and have provided guidelines and feedbacks (Parncutt et al. <span>2021</span>; Kremser et al. <span>2024</span>). Those technical requirements should be an integral part of the ASLO's contract specification with conference organizing companies, many of which are currently developing capacities for multi-hubbing.</p><p>Others may express concerns regarding the financial implications of adopting a multi-hub model because of the escalated demand for audio–visual equipment across diverse venues. Nonetheless, technological advancements have led to more affordable, compact, and reliable audio-visual gear. Additionally, hosting conferences in smaller hubs could potentially necessitate more modest and cheaper conference venues than those needed for the typical one-hub model. While it remains challenging to precisely gauge the financial impact of multi-hubbing at this stage, it is imperative to couple the multi-hub framework with a financial restructuring to ensure that registration fees do not increase.</p><p>Engaging in a transformative turn to truly more sustainable conferences through multi-hubs has also the potential to leverage some of the well-known inequalities of traditional conferences, a central mission of the ASLO community. Conference travel opportunities are strongly inequitable (Sarabipour et al. <span>2021</span>). For economic, family or time-related reasons, academics working in the developing world, and those with care responsibilities have reduced access to the privilege of conference travel, with potential disadvantages to their career development. This also appears in the presented data as scholars outside North America favor ASM within their (sub)continents, when it does not imply traveling too far. Multi-hub ASM will serve ASLO's commitment to diversity, inclusion, and equality, by reducing the cost, time and C-burden associated with ASLO conferencing. The average traveling distance per attendee is cut to less than a 3<sup>rd</sup> in the three-hub model (1300 km) as compared to the traditional one-hub model (4600 km). Thereby, shall this multi-hub model be successful and lead to a rebound effect of +25% of attendance, most of the additional attendees could travel with landbound transportation, leading to a relatively low increase in CO<sub>2</sub> emissions. Finally, our scientific credibility is challenged by our current difficulty to “walk our talk” (Attari et al. <span>2016</span>) and actively engaging into a transformative model specifically targeted to reduce the C-emissions of conferences is one lever to restore public trust.</p><p>Some scholars have already chosen not to attend conferences overseas (Higham and Font <span>2020</span>), even at the risk of being less visible. Yet, a real transformative change implies a collective engagement and a cultural change (Whitmarsh et al. <span>2020</span>), only possible if led and fostered by scientific societies. Rethinking the conference model provides an opportunity to revise what makes the success of a conference. How often do we need to attend? Is a bigger conference more effective in terms of scientific outcomes and feedbacks? Boosting symbolic capital and enjoying paid trips to nice locations are also reasons that drive frequent conference participation. How much of our perceived incentive to attend is actually a social construction rather than a real scientific benefit? ASLO has already proven its commitment to diversity and equality issues, by putting it into action through its “amplifying Voices” program. For such a strong community of academics at the forefront of climate issues, taking the leap toward committed actions for a sustainable and climate-friendly conference model would place the ASLO at the vanguard of scientific societies.</p>","PeriodicalId":18128,"journal":{"name":"Limnology and Oceanography Letters","volume":"9 5","pages":"499-505"},"PeriodicalIF":5.1000,"publicationDate":"2024-05-10","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://onlinelibrary.wiley.com/doi/epdf/10.1002/lol2.10402","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Limnology and Oceanography Letters","FirstCategoryId":"93","ListUrlMain":"https://onlinelibrary.wiley.com/doi/10.1002/lol2.10402","RegionNum":2,"RegionCategory":"地球科学","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q1","JCRName":"LIMNOLOGY","Score":null,"Total":0}
引用次数: 0

Abstract

The ASLO community is firmly committed to a sustainable future, and themes of the past conferences often infer a link between aquatic systems evolution and climate change. At the latest Aquatic Sciences Meeting (ASM) in 2023, climate change and carbon-centered topics were salient themes, making up to 50% of all contributions (Fig. 1). Many keynotes were remarked on for their willingness to engage toward actions and solutions and go beyond the sole report of dangers and threats posed by climate change and other overpassed planetary limits.

Taking part in international scientific conferences such as ASM makes an integrated component of our academic life. Expectations from scientific conferences are to provide an opportunity to stay informed about the latest developments, disseminate one's own research, discuss perspectives and ideas, and get inspired. Scientific conferences also foster a sense of belonging to a community and offer a social context in which to expand research networks. In line with this, academic incentives and travel support are high and on the rise (Bojica et al. 2022). Yet, scientific conferencing also generates significant CO2 emissions at the Worldwide scale. Eighty percent of the carbon footprint of international conferences is made up of air travel, with a lower estimate of roughly 1 tCO2−e (metric tons of carbon dioxide equivalent, that is, the number of metric tons of CO2 emissions with the same global warming potential as one metric ton of another greenhouse gas) emitted per attendee for transportation (Klower et al. 2020; Tao et al. 2021). If half of the 8 million worldwide academics were to take part annually in an international conference (Sarabipour et al. 2021), transporting academics to international conferences would generate a back-of-the-envelope estimate of 4 MtCO2−e, rivaling with annual emissions of countries such as Niger, Nicaragua, or Latvia (Crippa et al. 2022).

Meeting the Paris Agreement to contain warming to the 1.5°C target requires that the emissions per capita fall down to 2.3 tCO2−e by 2030 (Gore 2021), while, due to their hypermobile lifestyle, the sole professional travel-related annual emissions for academics can easily reach 6 tCO2−e per capita (Ciers et al. 2019). The significance of the carbon footprint of scientific conferences has led individual academics and scientific societies to question the current model for conferencing (Malcolm 2008; Achten et al. 2013; Arsenault et al. 2019; Klower et al. 2020; Tao et al. 2021). Despite extending beyond our immediate community, this issue holds particular significance for us within the ASLO community, as we travel the World and generate such greenhouse emissions specifically to meet and devise climate-related matters and the resilience of aquatic systems.

It is not the 1st time that the carbon footprint of ASLO conferences has been raised (Harazin 2020). However, we are unaware of any previous attempt to quantify the carbon footprint of ASM, although the exercise has already been undertaken for closely related scientific communities, such as the Ecological Society of America (Alexandra and Jarrett 2011) or the American Geophysical Union (Klower et al. 2020). We believe that this sizing exercise is important for two reasons. First, experience shows that even scholars working in scientific fields closely related to the issues of climate change tend to underestimate their own travel-related emissions (Whitmarsh et al. 2020; Passalacqua 2021). Second, quantifying the C-footprint of ASLO conferences is a required benchmark from which we can explore the efficiency of scenarios aimed at significantly reducing the carbon footprint of ASM while preserving its essence.

Many ways are being evoked to engage in a more sustainable conferencing model (moving online or hybrid, optimizing location, setting meatless conditions; Leochico et al. 2021), in which actual efficiency in reducing emissions is rarely quantitatively assessed. Going 100% online appeared, at 1st sight, as the most straightforward way to run conferences for <5% CO2−e emissions of traditional conferences (Klower et al. 2020; Tao et al. 2021). However, our past 3-yr virtual experience has shown that it largely undermines several of the benefits we expect from conferencing and face-to-face interactions (Brucks and Levav 2022). Is there then a way-out, by which we could significantly reduce the carbon footprint of conferences while escaping the ghost of going fully online?

We estimated the travel-related CO2−e emissions of ASM from 2004 to 2023, from a computational approach similar to Klower et al.'s (2020) study. Based on anonymized attendees' data for each ASM, we computed the distances between the attendees' closest airport and the main airport of the conference venues. For a 1st assessment, we assumed that all attendees flew to the conference location and used a conservative estimate (only direct flights in economy class). Computed emissions (CO2−e) included greenhouse gases produced by fuel consumption, emissions associated with extracting, refining, and transporting fuels, and changes in radiative forcing due to water vapor emissions at higher altitudes (average emission factor of 163 gCO2−e km−1). In a 2nd step, we considered that attendees within 1000 km of the conference venue used landbound-based transportation (i.e., rail, coach, or shared car, considering an average emission factor of 30 gCO2−e km−1). All conversion factors were extracted from the greenhouse gas reporting of United Kingdom (Department for Energy Security and Net Zero and Department for Business 2022). We also assessed the CO2−e emissions saved by the ASM 2023 initiative of meatless catering, considering that a meat-based and a vegetarian meal corresponds respectively to 3.07 and 0.68 kgCO2−e per capita (Takacs et al. 2022). For methodological details and reproducibility of the essay, we refer to our GitHub (see Data availability statement).

Total CO2−e emissions for a 1-week ASLO conference ranged between 0.5 and 4.5 ktCO2−e over the past 20 yr, with an average value of 2.1 ktCO2−e (Fig. 2a). 56% of travel-related emissions were due to long-haul flights (>4000 km one way). The interannual variability of total emissions results from both the conference's location (Fig. 2b) and the attendance (Fig. 2c). Mean emissions per attendee were 1.3 tCO2−e, a number that is comparable with what had been estimated for international conferences of other scientific societies (Klower et al. 2020), but varied considerably depending on the venue. Islander venues generated a 53% increase of the emissions per attendee, with record emissions from conferences held in Honolulu. Finally, the delocalization of the conferences outside North America since 2006 has fulfilled the goal of ASLO to diversify the origin of attendees and increase attendance (Fig. 2c). ASM held in Europe were, on average, twice more attended than those in Northern America, and attendees from Europe or Asia preferentially attended ASM held on their own continents.

As Hawaii meetings stand out in promoting the highest emission both per conference and per attendee, excluding outskirt, islander locations is an essential lever to cut-off travel-related C-emissions for ASM (Harazin 2020). However, mainland, central, well-connected locations still lead to per-capita emissions above 1 tCO2−e; that is, 46% of what we should emit within a full year by 2030. Rendering ASM sustainable will not be acquired by acting on conference location alone.

Seen as an immediate lever to reduce the carbon footprint of academics, more and more universities from the North are encouraging attendees to buy carbon credits. However, we argue that relying on the purchase of carbon offsets to compensate for emissions generated by scientific conferencing cannot be considered an efficient or acceptable alternative. Carbon offset projects backed by airlines fail to remove any carbon dioxide (Greenfield 2021) and rely on overstated promises of true carbon removal (West et al. 2020). On the carbon market, 88% of the sold offsets do not constitute any emission reduction (Probst et al. 2023), and more than 90% of rainforest carbon offsets by the biggest certifier are worthless (West et al. 2023), to the point that the so-called carbon offset projects could even worsen climate change. Besides being counter-effective, carbon credit is a very lucrative trade that favors those who could afford to purchase such offsets while counteracting ASLO's efforts to get more inclusive.

Shifting to multi-hub conferences is the structural change that we explore here. The principle of multi-hub conferences implies that meetings take place in several locations at the same time. Attendees go to their closest hub (Klower et al. 2020; Parncutt et al. 2021). Face-to-face interactions are maintained within hubs, while hubs are connected by virtual links (Parncutt et al. 2021). Using the data for ASM 2023, whereby attendance and attendees' diversity were high, we assessed the net reduction of travel-related CO2−e emissions of shifting from the traditional to a multi-hub model for ASM (Fig. 3).

We compared flight paths and CO2−e emissions between the current traditional ASM model and scenarios of a two-hub model (one central location in Europe and one in North America) and a three-hub model (adding a central hub in Asia). Adding continental hubs significantly reduces the number of intercontinental flights (Fig. 3a–c). The sum of traveled distances decreases significantly as the number of hubs increases, from 22 million km flown in the traditional one-hub model down to 10 million km in the two-hub and 8 million km in the three-hub scenario, leading to a reduction of total CO2−e emissions by 52% and 65%, respectively (Fig. 3d). Multi-hubs contribute to reducing per-attendee emissions, with a more balanced share of the C-burden across the attendees' continent of origin (Fig. 3e).

Promoting land-bound transportation has a rather minor impact on CO2−e in a one-hub model (<3% of total CO2−e). But with the multi-hub model, the potential benefit of promoting land-bound transportation is >10% (Fig. 3d). Serving vegetarian food has only a symbolic impact compared to travel-related emissions in a one-hub scenario. The “meatless day” at the ASM 2023 saved 11 tCO2−e, that is, 0.3% of the total emissions of the ASM 2023. In a three-hub scenario, shifting to a meatless week (−58 tCO2−e) has the potential to decrease emissions by another 5%.

The IPCC is clear that limiting warming at manageable levels requires that all sectors do their share, and scientific societies make no exception. In the current academic model, we are stuck within a cognitive conundrum (Whitmarsh et al. 2020): we travel the world to present our studies on the inner causes and consequences of climate change, leading to a demonstrated undermining of our scientific credibility (Attari et al. 2016), while being part of a scientific society committed to raising public awareness on water-related environmental challenges (www.aslo.org). And yet, tackling the question of the C-footprint of conferences, and of academic activities in general, remains an uncomfortable and sensitive topic, if not a complete taboo (Higham and Font 2020; Whitmarsh et al. 2020).

The traditional conferencing model is “an outdated luxury the planet cannot afford anymore” (Malcolm 2008). As shown here, low-carbon ASM will require more than a marginal fix, whereby we just avoid outskirt locations or promote carbon offsets. Here, we argue that only structural changes can lead to more sustainable conferencing. Switching to multi-hub ASLO conferences would significantly cut-off on the travel-related CO2−e emissions while maintaining efficient face-to-face scientific interactions. As multi-hub conferences develop, favoring landbound transport and serving vegetarian food also make an impactful difference, while being symbolic only in a one-hub scenario. While here we aimed only for a 1st-order demonstration of the potential of multi-hubbing, the implementation of such a model shift should come with a revision of what drives the choice of the venues, echoing concerns of Harazin (2020). The choice of the hub locations should be based on criteria oriented toward reducing the C-footprint, and more generally the environmental impact, over touristic attractiveness. For instance, an isochrone map could define optimal cities reachable by train within 10 h, thus incentivizing economic returns for cities and countries actively investing in railway transportation.

Some may argue that multi-hub conferences will be challenging to organize, due to time zone differences, and difficulties in managing both online and physical communication. If indeed this would imply to revise our habits, other societies, some of size comparable to the ASLO, have already undertaken the turn (such as the American Meteorological Society in 2022 and the Royal Geographical Society in 2023), and have provided guidelines and feedbacks (Parncutt et al. 2021; Kremser et al. 2024). Those technical requirements should be an integral part of the ASLO's contract specification with conference organizing companies, many of which are currently developing capacities for multi-hubbing.

Others may express concerns regarding the financial implications of adopting a multi-hub model because of the escalated demand for audio–visual equipment across diverse venues. Nonetheless, technological advancements have led to more affordable, compact, and reliable audio-visual gear. Additionally, hosting conferences in smaller hubs could potentially necessitate more modest and cheaper conference venues than those needed for the typical one-hub model. While it remains challenging to precisely gauge the financial impact of multi-hubbing at this stage, it is imperative to couple the multi-hub framework with a financial restructuring to ensure that registration fees do not increase.

Engaging in a transformative turn to truly more sustainable conferences through multi-hubs has also the potential to leverage some of the well-known inequalities of traditional conferences, a central mission of the ASLO community. Conference travel opportunities are strongly inequitable (Sarabipour et al. 2021). For economic, family or time-related reasons, academics working in the developing world, and those with care responsibilities have reduced access to the privilege of conference travel, with potential disadvantages to their career development. This also appears in the presented data as scholars outside North America favor ASM within their (sub)continents, when it does not imply traveling too far. Multi-hub ASM will serve ASLO's commitment to diversity, inclusion, and equality, by reducing the cost, time and C-burden associated with ASLO conferencing. The average traveling distance per attendee is cut to less than a 3rd in the three-hub model (1300 km) as compared to the traditional one-hub model (4600 km). Thereby, shall this multi-hub model be successful and lead to a rebound effect of +25% of attendance, most of the additional attendees could travel with landbound transportation, leading to a relatively low increase in CO2 emissions. Finally, our scientific credibility is challenged by our current difficulty to “walk our talk” (Attari et al. 2016) and actively engaging into a transformative model specifically targeted to reduce the C-emissions of conferences is one lever to restore public trust.

Some scholars have already chosen not to attend conferences overseas (Higham and Font 2020), even at the risk of being less visible. Yet, a real transformative change implies a collective engagement and a cultural change (Whitmarsh et al. 2020), only possible if led and fostered by scientific societies. Rethinking the conference model provides an opportunity to revise what makes the success of a conference. How often do we need to attend? Is a bigger conference more effective in terms of scientific outcomes and feedbacks? Boosting symbolic capital and enjoying paid trips to nice locations are also reasons that drive frequent conference participation. How much of our perceived incentive to attend is actually a social construction rather than a real scientific benefit? ASLO has already proven its commitment to diversity and equality issues, by putting it into action through its “amplifying Voices” program. For such a strong community of academics at the forefront of climate issues, taking the leap toward committed actions for a sustainable and climate-friendly conference model would place the ASLO at the vanguard of scientific societies.

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会议室里的大象:减少水产科学会议的碳足迹
计算的排放量(CO2-e)包括燃料消耗产生的温室气体,与燃料开采、提炼和运输相关的排放量,以及高海拔地区水蒸气排放导致的辐射强迫变化(平均排放因子为 163 gCO2-e km-1)。在第二步中,我们考虑到会场 1000 公里范围内的与会者使用陆路交通(即铁路、长途汽车或共享汽车,平均排放因子为 30 gCO2-e km-1)。所有换算系数均来自英国的温室气体报告(能源安全和净零部以及 2022 年商业部)。我们还评估了 ASM 2023 无肉餐饮倡议所节省的二氧化碳排放量,考虑到一顿肉食和一顿素食分别相当于人均 3.07 千克二氧化碳当量和 0.68 千克二氧化碳当量(Takacs 等,2022 年)。在过去 20 年中,为期一周的 ASLO 会议的二氧化碳排放总量介于 0.5 至 4.5 千吨 CO2-e 之间,平均值为 2.1 千吨 CO2-e(图 2a)。56% 的旅行相关排放来自长途飞行(单程 4000 公里)。会议地点(图 2b)和参会人数(图 2c)造成了总排放量的年际变化。每位与会者的平均排放量为 1.3 吨 CO2-e,这一数字与其他科学协会国际会议的估计值相当(Klower 等,2020 年),但因会议地点不同而有很大差异。岛国会议场所的人均排放量增加了 53%,在檀香山举行的会议的排放量更是创下了纪录。最后,自 2006 年以来,北美以外的会议地点的分散实现了 ASLO 的目标,即参会者来源的多样化和参会人数的增加(图 2c)。在欧洲举行的 ASM 平均参会人数是在北美洲举行的 ASM 的两倍,而来自欧洲或亚洲的参会者更愿意参加在其所在大洲举行的 ASM。由于夏威夷的会议在促进每场会议和每位参会者的最高排放量方面表现突出,因此排除郊区、岛民地点是削减与旅行相关的 ASM C 排放量的重要杠杆(Harazin,2020 年)。然而,大陆、中心、交通便利的地点仍会导致人均排放量超过 1 吨 CO2-e;也就是说,到 2030 年,这些地点的排放量是我们全年排放量的 46%。越来越多的北方高校鼓励参会者购买碳信用额度,以此作为减少学术界碳足迹的直接手段。然而,我们认为,依靠购买碳抵消额度来补偿科学会议产生的排放,不能被视为一种有效或可接受的替代方法。由航空公司支持的碳抵消项目无法清除任何二氧化碳(Greenfield,2021 年),并且依赖于夸大的真正碳清除承诺(West 等,2020 年)。在碳市场上,88%的已售碳抵消并不构成任何减排(Probst 等人,2023 年),最大的认证机构所认证的雨林碳抵消有 90% 以上毫无价值(West 等人,2023 年),以至于所谓的碳抵消项目甚至会加剧气候变化。碳信用是一种非常有利可图的交易,它有利于那些有能力购买碳抵消的人,同时也抵消了 ASLO 为提高包容性所做的努力。多枢纽会议的原则意味着会议同时在多个地点举行。与会者前往离自己最近的中心(Klower 等人,2020 年;Parncutt 等人,2021 年)。枢纽内保持面对面的互动,而枢纽之间则通过虚拟链接相连(Parncutt 等人,2021 年)。我们比较了当前传统 ASM 模式与双枢纽模式(一个中心位于欧洲,一个位于北美)和三枢纽模式(在亚洲增加一个中心枢纽)的飞行路线和二氧化碳排放量。增加大陆枢纽大大减少了洲际航班的数量(图 3a-c)。随着枢纽数量的增加,飞行距离总和大幅减少,从传统的单枢纽模式的 2,200 万公里减少到双枢纽模式的 1,000 万公里和三枢纽模式的 800 万公里,导致二氧化碳排放总量分别减少 52% 和 65%(图 3d)。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
10.00
自引率
3.80%
发文量
63
审稿时长
25 weeks
期刊介绍: Limnology and Oceanography Letters (LO-Letters) serves as a platform for communicating the latest innovative and trend-setting research in the aquatic sciences. Manuscripts submitted to LO-Letters are expected to present high-impact, cutting-edge results, discoveries, or conceptual developments across all areas of limnology and oceanography, including their integration. Selection criteria for manuscripts include their broad relevance to the field, strong empirical and conceptual foundations, succinct and elegant conclusions, and potential to advance knowledge in aquatic sciences.
期刊最新文献
Issue Information Capitalizing on the wealth of chemical data in the accretionary structures of aquatic taxa: Opportunities from across the tree of life The Great Lakes Winter Grab: Limnological data from a multi‐institutional winter sampling campaign on the Laurentian Great Lakes Disentangling effects of droughts and heatwaves on alpine periphyton communities: A mesocosm experiment Snow removal cools a small dystrophic lake
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