Rising utilization of stable isotopes in tree rings for climate change and forest ecology

2024-01-26 10:30RuHuangChenxiXuJussiGrieingerXiaoyuFengHaifengZhuAchimBruning
Journal of Forestry Research 2024年1期

Ru Huang · Chenxi Xu · Jussi Grießinger ·Xiaoyu Feng · Haifeng Zhu · Achim Bräuning

Abstract Analyses of stable isotopes (C,O,H) in tree rings are increasingly important cross-disciplinary programs.The rapid development in this field documented in an increasing number of publications requires a comprehensive review.This study includes a bibliometric analysis-based review to better understand research trends in tree ring stable isotope research.Overall,1475 publications were selected from the Web of Science Core Collection for 1974–2023.The findings are that: (1) numbers of annual publications and citations increased since 1974.From 1974 to 1980,there were around two relevant publications per year.However,from 2020 to 2022,this rose sharply to 109 publications per year.Likewise,average article citations were less than four per year before 1990,but were around four per article per year after 2000;(2) the major subjects using tree ring stable isotopes include forestry,geosciences,and environmental sciences,contributing to 42.5% of the total during 1974–2023;(3) the top three most productive institutions are the Chinese Academy of Sciences (423),the Swiss Federal Institute for Forest,Snow and Landscape Research (227),and the University of Arizona (204).These achievements result from strong collaborations;(4) review papers,for example,(Dawson et al.,Annu Rev Ecol Syst 33:507–559,2002) and(McCarroll and Loader,Quat Sci Rev 23:771–801,2004),are among the most cited,with more than 1000 citations;(5)tree ring stable isotope studies mainly focus on climatology and ecology,with atmospheric CO2 one of the most popular topics.Since 2010,precipitation and drought have received increasing attention.Based on this analysis,the research stages,key findings,debated issues,limitations and directions for future research are summarized.This study serves as an important attempt to understand the progress on the use of stable isotopes in tree rings,providing scientific guidance for young researchers in this field.

Keywords Tree rings · Stable isotopes · Web of Science ·Bibliometric

Introduction

The importance of forests cannot be overemphasized in terms of their critical role in the global carbon,energy,and hydrological cycles.However,many forests are facing increasing stress (such as droughts,heatwaves) and may be highly affected or even decline under the impacts of global climate change (Mou et al.2019;Senf et al.2020;Hammond et al.2022;Hartmann et al.2022).To better forecast how forests may change under different climate conditions,it will be beneficial to obtain the historical picture of physiological and ecological processes affecting forests under different climate conditions.Investigations using stable isotopes in tree rings are one of the most valuable tools to meet such demands (Gessler et al.2018;Shestakova and Martínez-Sancho 2021).

Since the end of the twentieth century,stable isotopes(herein focused only on C,O,H) in tree rings have been increasingly applied in different fields such as forest ecology and (paleo) climatology.More specifically,studies focusing on tree ring stable isotopes are indicative of net primary productivity (Belmecheri et al.2014;Levesque et al.2019),tree vitality and forest health (Cherubini et al.2021),as well as water sources (Wang et al.2021a,b;Huang et al.2022;Zhao et al.2023a).Voelker et al.(2019)reported that stable carbon isotopes in tree rings indicated that fire suppression had compromised the drought resilience of mixed-conifer forests and increased their vulnerability to biotic disturbances.

In addition,several~ 1000-year tree ring isotope-inferred precipitation/temperature reconstructions have been produced worldwide (e.g.,Feng and Epstein 1994;Treydte et al.2006,2009;Wang et al.2013;Grießinger et al.2017;Nakatsuka et al.2020;Büntgen et al.2021;Yang et al.2021;An et al.2022).With such enhanced progress,Siegwolf et al.(2022) published “Stable isotopes in tree rings: inferring physiological,climatic and environmental responses”,which reviews current advances in tree ring stable isotope research.Such rapid developments in tree ring isotope science necessitates a state-of-the-art bibliometric review.

Bibliometric analysis,a scientific computer-assisted review methodology,is the statistical analyses of books,articles,and other publications (Ai et al.2022).It is also referred to as “research on research”,providing a qualitative description of trends based on a bibliometric analysis.Such methods are increasingly used in hydrology (Ning et al.2019),climatology (Huang et al.2020;Fu and Waltman 2022),geomorphology (Zhang and Chen 2020;Bovi et al.2022),ecology (Chen et al.2022),forestry (Polinko and Coupland 2021),and plant science (Adamo et al.2021).Despite the substantial progress being made by tree ring isotope research,only few studies have used bibliometric methods to identify research trends in this field.

The aim of this study is to explore data on research outputs of stable isotopes in tree rings from the Web of Science(WOS) literature database,unveiling the global research status and hot spots in this field.The research stages,key findings,debated issues,and limitations for tree ring isotopes are also outlined.The results of this study can be a guide on tree ring stable isotope research.

Materials and methods

Data source

The Web of Science Core Collection was selected as our data source for bibliometric analysis,given its wide application in ecology (Song and Zhao 2013;Wang et al.2022a),forestry (Polinko and Coupland 2021) and hydrology (Cao et al.2021).

To capture the relevant literature as comprehensively as possible,two search terms were used: “tree ring* AND isotop*”and “tree ring* AND (stable isotop* OR Delta O-18 OR Delta C-13 OR delta H-2 OR Delta D)”(Note: the wildcard isotop* matches both “isotopic”and “isotope”).The number of publications from these two retrieval terms was 2251 and 1921,respectively.Fields like author,title,journal,cited frequency,abstract,address,affiliation,publication type,author keywords,keywords plus,Web of Science category and references in each record were downloaded for analysis.The web search covered the period from 1900 to 2023,and the final data retrieval was performed on January 17,2023.After all the records were initially screened and merged,and repeated data deleted,2393 records were left.Subsequently,all records were manually screened to select the relevant records.Finally,after two thorough manual screenings,only 1,475 records were selected for further analysis.Stable carbon,oxygen,and hydrogen isotopes in tree rings were focused on in this study depsite of the fact that there is an increasing number of publications using other isotopes in tree rings (e.g.,nitrogen,Silva et al.2016;Wang et al.2022b).Other metal isotopes or non-stable isotopes(14C) are also excluded in this study.

Data analysis

Biblioshiny in the bibliometrix package in the statistical environment R (Aria and Cuccurullo 2017;R Core Team 2023) revealed the temporal patterns of annual publications,citations,subjects,sources,authors,institutions,countries,key articles,research hotspots (indicated by keywords plus) for tree ring stable isotope studies.Biblioshiny is a shiny APP offering a web-interface for bibliometrix (Aria and Cuccurullo 2017).The detailed outline of this study is shown in Fig.1.

Fig.1 Workflow diagram

The Web of Science provides two types of keywords when possible: author keywords,selected by the author and submitted with the manuscript to the journal,and keywords plus assigned by the Web of Science.Herein,‘keywords plus’ instead of the authors’ keywords is used to explore the research hotspots.Detailed reasons are provided in the supporting materials.

Additionally,the synonym terms were merged into one to better understand the trend of tree ring isotope studies (“Friedrich Alexander Univ”,“Friedrich Alexander Univ Erlangen Nuremberg”,“Friedrich Alexander Univ Erlangen Nurnberg”,“Friedrich Alexander Univ Erlangen Nurnberg FAU”,“Friedrich Alexander Univers Erlangen Nuremberg”were replaced with “Univ Erlangen Nurnberg”).Other major synonyms are summarized in Table S1.

All data analysis and the resulting plots were applied in the statistical environment R (R Core Team 2023).

Results and discussion

Overview of publication outputs

A total of 1475 papers from 249 sources (journals,books and other materials) were published during 1974–2023.There were 3485 authors in these studies,and only 44 published single–authored papers.On average,5.1 authors contributed to every document.Half of the 1475 papers (50.9%)included international co–authors (at least from two countries).In addition,the average publication age in our dataset was 10.3 years,with 35.6 citations for every analyzed document.

Publications and citation trends

Both the annual number of publications and citations show an overall increase (Fig.2,1974–1980: two publications per year;2020–2022: 109 publications per year;less than four average article citations before 1990;around four average article citations per year after 2000).Before 1990,there were only 17 publications related to tree ring stable isotopes.Two years with more than 20,and 100 publications were observed in 2000 and 2020,respectively.Annual publications increased from 1 in 1974 to 113 in 2022,leading to an average annual increase of 1.4% and 1475 accumulated publications.The number of publications per year have increased more than seven times from 2000 (15) to 2020(113).Since 2000,the annual number of publications has exhibited a stable increase.

Fig.2 Long-term trends of tree ring stable isotope publications from 1974 to 2023: (a) annual number of publications and (b) average article citations per year

Average article citations were less than four per year before 1990.After 2000,average article citations increased to around four per year.Average article citations per year increased before 2016,however,a decrease occurred after 2016.Such a decrease in citations might be attributed to the time lag of two to three years after publication,which allows papers to accumulate sufficient citations (Belter 2015).Collectively,this demonstrates that the field of stable isotopes in tree rings developed rapidly with remarkable outputs over the past decades.

Subject and sources characteristics

Forestry,geosciences multidisciplinary,and environmental sciences are the major areas for the application of tree ring stable isotope studies (Fig.3a),accounting for 42.5% of all subjects during 1974–2023.Contributions from different fields changed during differing periods.Before 2000,around 61.1% of related papers were on geosciences multidisciplinary,geochemistry and geophysics,ecology,meteorology or atmospheric sciences,and forestry.Since 2000,contributions from forestry and environmental sciences have increased,while those from geosciences multidisciplinary have decreased.The percentage of articles in geosciences multidisciplinary kept relatively stable during different periods.The increasing contributions from forestry and environmental sciences likely result from an emphasis from the public and society.

Fig.3 a Percentage of major subject categories during 1974–2023,1974–1999,2000–2004,2005–2009,2010–2014,2015–2019,2020–2023.These were selected based on the development and production of tree ring stable isotopes;b cumulative production for the top 6 most relevant sources related to tree ring stable isotopes

Studies of tree ring stable isotopes overall have appeared in 249 sources (journals,books,other materials).The number of sources remained stable at 45 from 1974 to 1999,and from 2000 to 2004.After 2004,the number of sources increased steadily,reaching 119 in 2015–2019.Additionally,the journals,Tree Physiology(96),Trees-Structure and Function(54),andDendrochronologia(52) were the most popular for researchers to publish their results.These three journals contributed 13.7% of the total sources.Publications in these journals showed a clear increase since 2000(Fig.3b).This indicates that stable isotopes in tree rings were widely employed to investigate ecological/physiological processes in forestry research.

Institutions and countries

Most productive institutions and countries

The top 10 institutions in terms of overall number of publications are provided in Table 1.The Chinese Academy of Sciences (CAS) dominates with 423 publications,mainly from the Northwest Institute of Eco-environment and Resources(114),formerly the Cold and Arid Regions Environmental and Engineering Research Institute,and the Institute of Earth Environment (82).CAS is followed by the Swiss Federal Institute of Forest Snow and Landscape Research (WSL,227) and the University of Arizona (204).The large number of publications by these institutions clearly indicate their influence in the field.

Table 1 List of the top 10 institutes derived from the analysis including affiliation,country,and number of articles

Different countries have different dominant roles based on the number of publications by several authors,the number of publications by corresponding author,total citations,and the average article citations (Fig.4).The USA leads in number of publications (1327,Fig.4a),the number of publications by corresponding author (285,Fig.4b),and total citations(14,114,Fig.4c).China is second with regards to the number of publications (1012,Fig.4a),and the number of documents by corresponding author (197,Fig.4b).However,the total citations (2640) and average article citations (13.4) for China were behind the UK (total citations: 6475,average article citations: 62.3),Germany (total citations: 5856,average article citations: 38),Switzerland (total citations: 5515,average article citations: 55.7),and Spain (total citations:3175,average article citations: 41.2,Fig.4c,d).Further,the UK leads in average article citations (62.3,Fig.4d).This may result from the highly cited review papers by authors affiliated with the UK (e.g.,McCarroll and Loader 2004).

Fig.4 Top 10 countries with publications related to tree ring stable isotopes: a number of documents irrespective of corresponding authors,b number of documents by corresponding authors,c total citations,d average article citation

Collaborations among authors,institutions,and countries

Whether authors,institutions or countries are considered,collaborative studies at national and international levels are becoming increasingly common for tree ring isotope research.The average numbers of authors,institutions,and countries revealed an upward trend since 1974 (Fig.5).Over 2010–2023,the number was twice compared to 1974–1999(Fig.5).Additional collaboration network analysis revealed that the most influential institutions and countries had high numbers of collaborations (Fig.S1).The importance of cooperation is also stressed from a country comparison perspective (Jonathan 2013).

Fig.5 Number of authors,institutions,and countries from 1974 to 2023 publishing articles on tree ring stable isotopes;the blank indicates no publication in the corresponding year.The top left inset plot shows averages for number of authors,institutions,and countries for 1974–1999,2000–2009 and 2010–2023;these were used,considering the technology development and production on tree ring stable isotopes

Key articles

Review papers were highly cited,the 10 most cited papers are listed in Table 2.All were published before 2010,and only one was published before 2000.Six of these ten papers were review articles,and the remaining were research articles.This suggests,specifically,that review papers have the highest potential to be highly cited.Apart from these review papers,publications related to thematic hot topics such as drought-induced forest decline (Barber et al.2000) and original methods (Roden et al.2000) were also attractive.

Table 2 Top 10 cited articles derived from the analysis including information on respective documents,title,and year of publication

Hotspots indicated by‘keywords plus’

The terms “climatology”and “ecology”appear to be the main themes of tree ring isotope studies.Thirty ‘keywords plus’ are provided in the co–occurrence network and can be classified into two groups.The red zone (Cluster 1) indicates the theme “climatology”,the blue zone (Cluster 2) represents the theme “ecology”.It is obvious that the two clusters are significantly inter-linked (Fig.6).

Fig.6 Co-occurrence network of ‘keywords plus’ during the period 1974–2023

The hotspots have changed over time from 1974 to 2023(Table 3).Atmospheric CO2remained the main topic in all periods except for 2020–2023.From 1974 to 1999,atmospheric CO2,leaves,photosynthesis,plants,and forests were the most prevalent topics,reflecting that basic theories and methods were the dominant focus (e.g.,Pearman et al.1976;Leavitt and Long 1986;Macfarlane et al.1999;McCarroll and Loader 2004).In the 2000s,water-use efficiency,temperature,and climate became more frequent topics,indicating a shift towards climate change impacts (e.g.,Saurer et al.2004;Peñuelas et al.2008;Gessler et al.2009).

The 2010s saw even more focus on climate,variability,drought,and reconstruction of past climates using tree ring isotopes (e.g.,Leavitt et al.2011;Brienen et al.2012;Qin et al.2015).This possibly results from more frequent and destructive precipitation–related disasters (floods,droughts;IPCC 2021).Most recently in the 2020s,climate,atmospheric CO2,and precipitation have been dominant (e.g.,Mathias and Thomas 2021;Yang et al.2021;Freund et al.2023).

Research stages in tree ring stable isotope

According to our bibliometric analysis,the development of tree ring isotope research has gone through three stages: the initial exploration stage,the rapid development stage,and the expansion and integration stage (Fig.7).During the initial exploration stage (before 2000),the number of articles was 110,with minimal international cooperation.On average,two–three scholars from a single country and institution published an article.Research focused on basic methods and fractionation principles in a few areas (Francey and Farquhar 1982;Roden and Ehleringer 1999).

Fig.7 Three stages of tree ring isotopes research

In the rapid development stage (2000–2009),the number of articles published was 314,with an increase in international cooperation.On average,four scholars from one-two countries and two to three institutions published an article.The number of research sites gradually increased.Some scholars systematically reviewed the principles,methods,and applications of tree ring isotopes (Dawson et al.2002;McCarroll and Loader 2004),laying a foundation for tree ring isotope research.In addition,long time series of 1000 years began to appear (Treydte et al.2006).

In the expansion and integration stage (after 2010),up to the present,the number of articles published is about 1,050,with a significant increase in international cooperation.On average,five-six scholars from two countries and three to four institutions published an article.Drought research related to precipitation has increased.More chronologies exceeding 1,000 years have emerged (Grießinger et al.2017;Büntgen et al.2021;Yang et al.2021).Research has expanded from single sites to regional comparisons (Freund et al.2023;Xu et al.2023) and research disciplines have expanded to multi-disciplines including forestry.Tree ring isotopes are increasingly closely integrated with mechanistic process models (Zeng et al.2016,2017) and atmospheric circulation models (Huang et al.2019b).

Key findings,debated issues,and limitations of tree ring isotopes

Key findings

Tree ring isotopes are crucial in paleoclimatology research.The length of tree ring isotope chronologies has increased over time,with long chronologies spanning 6700 years in Asia (Yang et al.2021),1944 years in Europe (Büntgen et al.2021),and some covering geological periods (Ren et al.2021).The temporal resolution has also increased through more frequent intra-annual high-resolution studies,providing detailed climate change (Zeng et al.2016 and 2017;Szymczak et al.2019;Xu et al.2021,2022;Bing et al.2022).In addition,tree ring isotope research has expanded spatially to include tropical low latitudes (Xu et al.2023) and Arctic high latitudes (Xu et al.2020).In addition to trees,shrubs have also attracted attention (Huang et al.2019a;Wernicke et al.2019;Driscoll et al.2020;Li et al.2020).

In ecology,tree ring isotopes have provided valuable insights.Intrinsic water-use efficiency is found to have increased in recent decades (Huang et al.2017;Adams et al.2019;Grießinger et al.2019;Liu et al.2019).Globally and regionally,enhanced photosynthesis rather than reduced stomatal conductance is the primary cause of increased intrinsic water-use efficiency (Guerrieri et al.2019;Mathias and Thomas 2021).However,such increased efficiency may not improve tree growth due to water stress and nutrient limitations(Rahman et al.2019;Wang et al.2021a,b;Yang et al.2022;Li et al.2023).Additionally,tree ring isotopes have tracked variability of vegetation productivity in the eastern USA and northeastern China (Belmecheri et al.2014;Levesque et al.2019;Diao et al.2023).Further,a conceptual model using tree ring isotopes assessed mechanisms and predispositions of drought-induced tree mortality (Gessler et al.2018),providing a promising retrospective tool for physiological mechanisms.

Debated issues

CO2 fertilization.

The effects of rising atmospheric CO2on tree growth remain controversial (Laffitte et al.2023).Some tree ring isotope studies from northwestern China (Liu et al.2014) and the southeastern Tibetan Plateau (Silva et al.2016) reveal a positive tree growth response to elevated CO2,while other researches from the tropics suggest constraints from drought stress or nutrient availability override the influence of the CO2increase on tree growth (Rahman et al.2019).Further efforts are needed to clarify such complex relationship.

Detrend or not for tree ring oxygen isotopes.

Whether age-related trends exist in tree ring oxygen isotopes remains under discussion.Studies in northern Pakistan detected an age-related trend in the oxygen isotope chronology (Treydte et al.2006),while research in the UK and Czech Republic did not (Duffy et al.2019;Büntgen et al.2020).Given their potential influence on climate reconstructions,this warrants further attention.

Limitations

The limitations of tree ring isotopes are: (1) stresses can lead to a mismatch between leaf and tree ring isotopes (Andreu-Hayles et al.2022).Stem growth and carbon allocation to the stem may rapidly decline under stress before decreases in photosynthesis occur (Dobbertin 2005).This incomplete carbon transfer can result in unclear isotopic signals in the tree rings;(2) a temporal mismatch also arises from the use of different carbon pools for growth,each with unique isotopic signatures(Andreu-Hayles et al.2022).While stored assimilates such as starch and sugars contain a blend of isotopic signals from previous and current seasons,their values diverge from newly produced assimilates (Kagawa et al.2006).Such limitations should be considered in data analysis.

New frontiers in tree ring stable isotopes

Global synthesis for paleoclimatic reconstruction

The number of tree ring isotope sampling sites worldwide is increasing (e.g.,Shestakova and Martínez-Sancho 2021;Freund et al.2023;Xu et al.2023).Creating global networks of tree ring isotope data can improve the accuracy of paleoclimatic reconstructions.This involves collecting data from various regions around the world and integrating it into a unified framework.Previous work has been done to create a global network of tree ring oxygen isotopes (Konecky et al.2020).Further efforts should consider adding carbon and hydrology isotopes to obtain a much clearer picture of climate variability.

Evaluation of recent droughts in a long-term context

Drought has a significant impact on human beings.In recent years,an era of global warming has occurred,resulting in increased frequency and severity of droughts.Answering questions about the long-term historical perspective on recent droughts and their main driving factors requires long-term drought history data.Tree ring isotopes can record drought history and evaluate the severity of current droughts and their driving factors on a long-term scale (Feng et al.2022;An et al.2023;Wang et al.2023;Zhao et al.2023b).However,current tree ring isotope drought research is limited to a few regions like Europe (Liu et al.2022;An et al.2023;Freund et al.2023),South America (Brienen et al.2012),Northern America (Leavitt et al.2011) and China(Yang et al.2021).More efforts are needed in areas like Africa.

Reconstructing past vegetation productivity using tree ring stable isotopes

Vegetation productivity,which reflects the net carbon balance between photosynthesis and respiration,is a key indicator of ecosystem function and carbon cycling.However,long-term,high-resolution estimates of vegetation productivity across large spatial scales are generally scarce.Tree ring carbon and (or) oxygen isotopes have captured the interannual variability of ecosystem productivity in temperate forests (Belmecheri et al.2014;Levesque et al.2019;Diao et al.2023).Such results suggest a potential of tree ring isotopes for reconstructing past vegetation productivity.

Understanding the physiological mechanisms of tree decline and mortality

The effects of global warming are manifesting as a decrease or mortality in numerous forests globally (Hammond et al.2022).Tree ring widths provide fundamental insights into how tree growth has adapted to these changes (Rai et al.2020;Yu and Liu 2020).Additionally,isotopes in tree rings furnish supplementary data on long-term physiological alterations in trees,such as changes in water-use efficiency and water sources (Sarris et al.2013;Cherubini et al.2021;Lehmann et al.2021;Quadri et al.2021;Siegwolf et al.2023;Strange et al.2023).This is crucial to understanding the physiological mechanisms of forest decline or death(Gessler et al.2018;Valor et al.2020).For example,earlywarning signs of tree decline can be inferred from a reduced intrinsic water-use efficiency in the short-term (López et al.2021).

Conclusion

Tree ring stable isotopes (C,O,H) are increasingly being used as an important tool in ecological,climatological,and forest research,with fruitful outputs.In this study,we conducted a bibliometric analysis to better understand trends in the current research during the period 1974–2023 with the retrieval type of “tree ring”and “stable isotope”in the topic.We found that the annual numbers of 1475 SCI/SSCIindexed documents and citations increased.Forestry,multidisciplinary geosciences,and environmental sciences are the main subjects of this increase during 1974–2023,andTree Physiologywas the most popular journal for researchers.There was a shift from pure ecology and plant science to forestry (more applied topics).Additionally,CAS,WSL,and the University of Arizona are the most productive institutions,with more than 200 records.Different countries exhibit differing dominance for the total number of publications,the number of publications by the corresponding author,total citations,and average article citations.The most cited papers are mainly originating from reviews such as Dawson et al.(2002) and McCarroll and Loader (2004),with >1000 citations.“Atmospheric CO2”has been the most common theme,and precipitation-related studies have been given increasing attention since 2010.

Moreover,tree ring isotopes have undergone three distinct stages of development: the initial exploration stage (before 2000),the rapid development stage (2000–2009),and the expansion and integration stage (since 2010).These stages have been characterized by increasing international cooperation and significant contributions to the fields of (paleo)climatology and ecology.However,there remain unresolved issues,such as the effects of CO2fertilization and age-related effects in tree ring oxygen isotopes.In addition,attention should be given to the decoupling between leaf and tree ring isotopes,as well as the temporal mismatch of isotopic signatures due to the use of different carbon pools for growth.

We are aware that there might be some limitations within this analysis.At first,some relevant tree ring isotope studies were not included due to the limitation of the retrieval type.More specifically,papers whose title,abstract and keywords did not contain retrieval terms were not detected.In addition,articles in other languages besides English were not included.Moreover,the most recent studies about tree ring isotopes are not included (e.g.,Freund et al.2023;Xu et al.2023;Zhao et al.2023c) and the most highly cited papers are biased toward older papers because older studies tend to be more highly cited than newer ones (Belter 2015).Despite such disadvantages,the results of this study may offer an important insight of the tree ring stable isotope literature and can act as a helpful guide for researchers to master the relevant literature.

AcknowledgementsXiaoyu Feng is grateful for the support from the UCAS Joint PhD Training Program.

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