A research framework to integrate cross-ecosystem responses to tropical cyclones

J. Aaron Hogan; Rusty A. Feagin; Gregory Starr; Michael Ross; Teng Chiu Lin; Christine O'Connell; Thomas P. Huff; Beth A. Stauffer; Kelly L. Robinson; Maria Chapela Lara; Jianhong Xue; Brandi Kiel Reese; Simon J. Geist; Elizabeth R. Whitman; Sarah Douglas; Victoria M. Congdon; Joseph W. Reustle; Rachel S. Smith; David Lagomasino; Bradley A. Strickland; Sara S. Wilson; C. Edward Proffitt; J. Derek Hogan; Benjamin L. Branoff; Anna R. Armitage; Scott A. Rush; Rolando O. Santos; Marconi Campos-Cerqueira; Paul A. Montagna; Brad Erisman; Lily Walker; Whendee L. Silver; Todd A. Crowl; Michael Wetz; Nathan Hall; Xiaoming Zou; Steven C. Pennings; Lih Jih Wang; Chung Te Chang; Miguel Leon; William H. McDowell; John S. Kominoski; Christopher J. Patrick

doi:10.1093/BIOSCI/BIAA034

A research framework to integrate cross-ecosystem responses to tropical cyclones

J. Aaron Hogan, Rusty A. Feagin, Gregory Starr, Michael Ross, Teng Chiu Lin, Christine O'Connell, Thomas P. Huff, Beth A. Stauffer, Kelly L. Robinson, Maria Chapela Lara, Jianhong Xue, Brandi Kiel Reese, Simon J. Geist, Elizabeth R. Whitman, Sarah Douglas, Victoria M. Congdon, Joseph W. Reustle, Rachel S. Smith, David Lagomasino, Bradley A. StricklandSara S. Wilson, C. Edward Proffitt, J. Derek Hogan, Benjamin L. Branoff, Anna R. Armitage, Scott A. Rush, Rolando O. Santos, Marconi Campos-Cerqueira, Paul A. Montagna, Brad Erisman, Lily Walker, Whendee L. Silver, Todd A. Crowl, Michael Wetz, Nathan Hall, Xiaoming Zou, Steven C. Pennings, Lih Jih Wang, Chung Te Chang, Miguel Leon, William H. McDowell, John S. Kominoski, Christopher J. Patrick

Department of Life Science

Research output: Contribution to journal › Review article › peer-review

2 Citations (Scopus)

Abstract

Tropical cyclones play an increasingly important role in shaping ecosystems. Understanding and generalizing their responses is challenging because of meteorological variability among storms and its interaction with ecosystems. We present a research framework designed to compare tropical cyclone effects within and across ecosystems that: a) uses a disaggregating approach that measures the responses of individual ecosystem components, b) links the response of ecosystem components at fine temporal scales to meteorology and antecedent conditions, and c) examines responses of ecosystem using a resistance-resilience perspective by quantifying the magnitude of change and recovery time. We demonstrate the utility of the framework using three examples of ecosystem response: gross primary productivity, stream biogeochemical export, and organismal abundances. Finally, we present the case for a network of sentinel sites with consistent monitoring to measure and compare ecosystem responses to cyclones across the United States, which could help improve coastal ecosystem resilience.

Original language	English
Pages (from-to)	477-489
Number of pages	13
Journal	BioScience
Volume	70
Issue number	6
DOIs	https://doi.org/10.1093/BIOSCI/BIAA034
Publication status	Published - 2021

Keywords

Cyclone
Ecosystem response
Hurricane
Research framework
Typhoon

ASJC Scopus subject areas

Agricultural and Biological Sciences(all)

Access to Document

10.1093/BIOSCI/BIAA034

Fingerprint Dive into the research topics of 'A research framework to integrate cross-ecosystem responses to tropical cyclones'. Together they form a unique fingerprint.

Cite this

Hogan, J. A., Feagin, R. A., Starr, G., Ross, M., Lin, T. C., O'Connell, C., Huff, T. P., Stauffer, B. A., Robinson, K. L., Lara, M. C., Xue, J., Reese, B. K., Geist, S. J., Whitman, E. R., Douglas, S., Congdon, V. M., Reustle, J. W., Smith, R. S., Lagomasino, D., ... Patrick, C. J. (2021). A research framework to integrate cross-ecosystem responses to tropical cyclones. BioScience, 70(6), 477-489. https://doi.org/10.1093/BIOSCI/BIAA034

A research framework to integrate cross-ecosystem responses to tropical cyclones. / Hogan, J. Aaron; Feagin, Rusty A.; Starr, Gregory; Ross, Michael; Lin, Teng Chiu; O'Connell, Christine; Huff, Thomas P.; Stauffer, Beth A.; Robinson, Kelly L.; Lara, Maria Chapela; Xue, Jianhong; Reese, Brandi Kiel; Geist, Simon J.; Whitman, Elizabeth R.; Douglas, Sarah; Congdon, Victoria M.; Reustle, Joseph W.; Smith, Rachel S.; Lagomasino, David; Strickland, Bradley A.; Wilson, Sara S.; Proffitt, C. Edward; Hogan, J. Derek; Branoff, Benjamin L.; Armitage, Anna R.; Rush, Scott A.; Santos, Rolando O.; Campos-Cerqueira, Marconi; Montagna, Paul A.; Erisman, Brad; Walker, Lily; Silver, Whendee L.; Crowl, Todd A.; Wetz, Michael; Hall, Nathan; Zou, Xiaoming; Pennings, Steven C.; Wang, Lih Jih; Chang, Chung Te; Leon, Miguel; McDowell, William H.; Kominoski, John S.; Patrick, Christopher J.

In: BioScience, Vol. 70, No. 6, 2021, p. 477-489.

Research output: Contribution to journal › Review article › peer-review

Hogan, JA, Feagin, RA, Starr, G, Ross, M, Lin, TC, O'Connell, C, Huff, TP, Stauffer, BA, Robinson, KL, Lara, MC, Xue, J, Reese, BK, Geist, SJ, Whitman, ER, Douglas, S, Congdon, VM, Reustle, JW, Smith, RS, Lagomasino, D, Strickland, BA, Wilson, SS, Proffitt, CE, Hogan, JD, Branoff, BL, Armitage, AR, Rush, SA, Santos, RO, Campos-Cerqueira, M, Montagna, PA, Erisman, B, Walker, L, Silver, WL, Crowl, TA, Wetz, M, Hall, N, Zou, X, Pennings, SC, Wang, LJ, Chang, CT, Leon, M, McDowell, WH, Kominoski, JS & Patrick, CJ 2021, 'A research framework to integrate cross-ecosystem responses to tropical cyclones', BioScience, vol. 70, no. 6, pp. 477-489. https://doi.org/10.1093/BIOSCI/BIAA034

Hogan, J. Aaron ; Feagin, Rusty A. ; Starr, Gregory ; Ross, Michael ; Lin, Teng Chiu ; O'Connell, Christine ; Huff, Thomas P. ; Stauffer, Beth A. ; Robinson, Kelly L. ; Lara, Maria Chapela ; Xue, Jianhong ; Reese, Brandi Kiel ; Geist, Simon J. ; Whitman, Elizabeth R. ; Douglas, Sarah ; Congdon, Victoria M. ; Reustle, Joseph W. ; Smith, Rachel S. ; Lagomasino, David ; Strickland, Bradley A. ; Wilson, Sara S. ; Proffitt, C. Edward ; Hogan, J. Derek ; Branoff, Benjamin L. ; Armitage, Anna R. ; Rush, Scott A. ; Santos, Rolando O. ; Campos-Cerqueira, Marconi ; Montagna, Paul A. ; Erisman, Brad ; Walker, Lily ; Silver, Whendee L. ; Crowl, Todd A. ; Wetz, Michael ; Hall, Nathan ; Zou, Xiaoming ; Pennings, Steven C. ; Wang, Lih Jih ; Chang, Chung Te ; Leon, Miguel ; McDowell, William H. ; Kominoski, John S. ; Patrick, Christopher J. / A research framework to integrate cross-ecosystem responses to tropical cyclones. In: BioScience. 2021 ; Vol. 70, No. 6. pp. 477-489.

@article{0fd78fd09e8944b3913c1f24145c66fb,

title = "A research framework to integrate cross-ecosystem responses to tropical cyclones",

abstract = "Tropical cyclones play an increasingly important role in shaping ecosystems. Understanding and generalizing their responses is challenging because of meteorological variability among storms and its interaction with ecosystems. We present a research framework designed to compare tropical cyclone effects within and across ecosystems that: a) uses a disaggregating approach that measures the responses of individual ecosystem components, b) links the response of ecosystem components at fine temporal scales to meteorology and antecedent conditions, and c) examines responses of ecosystem using a resistance-resilience perspective by quantifying the magnitude of change and recovery time. We demonstrate the utility of the framework using three examples of ecosystem response: gross primary productivity, stream biogeochemical export, and organismal abundances. Finally, we present the case for a network of sentinel sites with consistent monitoring to measure and compare ecosystem responses to cyclones across the United States, which could help improve coastal ecosystem resilience.",

keywords = "Cyclone, Ecosystem response, Hurricane, Research framework, Typhoon",

author = "Hogan, {J. Aaron} and Feagin, {Rusty A.} and Gregory Starr and Michael Ross and Lin, {Teng Chiu} and Christine O'Connell and Huff, {Thomas P.} and Stauffer, {Beth A.} and Robinson, {Kelly L.} and Lara, {Maria Chapela} and Jianhong Xue and Reese, {Brandi Kiel} and Geist, {Simon J.} and Whitman, {Elizabeth R.} and Sarah Douglas and Congdon, {Victoria M.} and Reustle, {Joseph W.} and Smith, {Rachel S.} and David Lagomasino and Strickland, {Bradley A.} and Wilson, {Sara S.} and Proffitt, {C. Edward} and Hogan, {J. Derek} and Branoff, {Benjamin L.} and Armitage, {Anna R.} and Rush, {Scott A.} and Santos, {Rolando O.} and Marconi Campos-Cerqueira and Montagna, {Paul A.} and Brad Erisman and Lily Walker and Silver, {Whendee L.} and Crowl, {Todd A.} and Michael Wetz and Nathan Hall and Xiaoming Zou and Pennings, {Steven C.} and Wang, {Lih Jih} and Chang, {Chung Te} and Miguel Leon and McDowell, {William H.} and Kominoski, {John S.} and Patrick, {Christopher J.}",

note = "Funding Information: This is contribution number 955 from the Southeast Environmental Research Center in the Institute of Environment at Florida International University. This work was funded by National Science Foundation (NSF) workshop grant no. DEB no. 1903760 to CJP, WHM, and JSK. The conceptual diagram was developed during several days of discussion among workshop participants in April 2019 in Corpus Christi, Texas. We thank Melissa Ladd for facilitating the workshop. Partial support to PAM and MW was provided by NSF RAPID grant no. OCE 1760006). GS was partially supported by NSF RAPID grants no. DEB 1910811 and no. GEO 1807533). Publisher Copyright: {\textcopyright} The Author(s) 2020. Published by Oxford University Press on behalf of the American Institute of Biological Sciences. All rights reserved. For Permissions, please e-mail: journals.permissions@oup.com. Copyright: Copyright 2021 Elsevier B.V., All rights reserved.",

year = "2021",

doi = "10.1093/BIOSCI/BIAA034",

language = "English",

volume = "70",

pages = "477--489",

journal = "BioScience",

issn = "0006-3568",

publisher = "American Institute of Biological Sciences",

number = "6",

}

TY - JOUR

T1 - A research framework to integrate cross-ecosystem responses to tropical cyclones

AU - Hogan, J. Aaron

AU - Feagin, Rusty A.

AU - Starr, Gregory

AU - Ross, Michael

AU - Lin, Teng Chiu

AU - O'Connell, Christine

AU - Huff, Thomas P.

AU - Stauffer, Beth A.

AU - Robinson, Kelly L.

AU - Lara, Maria Chapela

AU - Xue, Jianhong

AU - Reese, Brandi Kiel

AU - Geist, Simon J.

AU - Whitman, Elizabeth R.

AU - Douglas, Sarah

AU - Congdon, Victoria M.

AU - Reustle, Joseph W.

AU - Smith, Rachel S.

AU - Lagomasino, David

AU - Strickland, Bradley A.

AU - Wilson, Sara S.

AU - Proffitt, C. Edward

AU - Hogan, J. Derek

AU - Branoff, Benjamin L.

AU - Armitage, Anna R.

AU - Rush, Scott A.

AU - Santos, Rolando O.

AU - Campos-Cerqueira, Marconi

AU - Montagna, Paul A.

AU - Erisman, Brad

AU - Walker, Lily

AU - Silver, Whendee L.

AU - Crowl, Todd A.

AU - Wetz, Michael

AU - Hall, Nathan

AU - Zou, Xiaoming

AU - Pennings, Steven C.

AU - Wang, Lih Jih

AU - Chang, Chung Te

AU - Leon, Miguel

AU - McDowell, William H.

AU - Kominoski, John S.

AU - Patrick, Christopher J.

N1 - Funding Information: This is contribution number 955 from the Southeast Environmental Research Center in the Institute of Environment at Florida International University. This work was funded by National Science Foundation (NSF) workshop grant no. DEB no. 1903760 to CJP, WHM, and JSK. The conceptual diagram was developed during several days of discussion among workshop participants in April 2019 in Corpus Christi, Texas. We thank Melissa Ladd for facilitating the workshop. Partial support to PAM and MW was provided by NSF RAPID grant no. OCE 1760006). GS was partially supported by NSF RAPID grants no. DEB 1910811 and no. GEO 1807533). Publisher Copyright: © The Author(s) 2020. Published by Oxford University Press on behalf of the American Institute of Biological Sciences. All rights reserved. For Permissions, please e-mail: journals.permissions@oup.com. Copyright: Copyright 2021 Elsevier B.V., All rights reserved.

PY - 2021

Y1 - 2021

N2 - Tropical cyclones play an increasingly important role in shaping ecosystems. Understanding and generalizing their responses is challenging because of meteorological variability among storms and its interaction with ecosystems. We present a research framework designed to compare tropical cyclone effects within and across ecosystems that: a) uses a disaggregating approach that measures the responses of individual ecosystem components, b) links the response of ecosystem components at fine temporal scales to meteorology and antecedent conditions, and c) examines responses of ecosystem using a resistance-resilience perspective by quantifying the magnitude of change and recovery time. We demonstrate the utility of the framework using three examples of ecosystem response: gross primary productivity, stream biogeochemical export, and organismal abundances. Finally, we present the case for a network of sentinel sites with consistent monitoring to measure and compare ecosystem responses to cyclones across the United States, which could help improve coastal ecosystem resilience.

AB - Tropical cyclones play an increasingly important role in shaping ecosystems. Understanding and generalizing their responses is challenging because of meteorological variability among storms and its interaction with ecosystems. We present a research framework designed to compare tropical cyclone effects within and across ecosystems that: a) uses a disaggregating approach that measures the responses of individual ecosystem components, b) links the response of ecosystem components at fine temporal scales to meteorology and antecedent conditions, and c) examines responses of ecosystem using a resistance-resilience perspective by quantifying the magnitude of change and recovery time. We demonstrate the utility of the framework using three examples of ecosystem response: gross primary productivity, stream biogeochemical export, and organismal abundances. Finally, we present the case for a network of sentinel sites with consistent monitoring to measure and compare ecosystem responses to cyclones across the United States, which could help improve coastal ecosystem resilience.

KW - Cyclone

KW - Ecosystem response

KW - Hurricane

KW - Research framework

KW - Typhoon

UR - http://www.scopus.com/inward/record.url?scp=85084604990&partnerID=8YFLogxK

UR - http://www.scopus.com/inward/citedby.url?scp=85084604990&partnerID=8YFLogxK

U2 - 10.1093/BIOSCI/BIAA034

DO - 10.1093/BIOSCI/BIAA034

M3 - Review article

AN - SCOPUS:85084604990

VL - 70

SP - 477

EP - 489

JO - BioScience

JF - BioScience

SN - 0006-3568

IS - 6

ER -

A research framework to integrate cross-ecosystem responses to tropical cyclones

Abstract

Keywords

ASJC Scopus subject areas

Access to Document

Other files and links

Cite this