References
Aide, M. T., Zimmerman, J. K., Pascarella, J. B., Rivera, L., &
Marcano-Vega, H. (2000).
Forest regeneration in a chronosequence of tropical abandoned pastures:
implications
for restoration ecology. Restoration Ecology , 8(4), 328-338.
Allen, K., Dupuy, J. M., Gei, M. G., Hulshof, C., Medvigy, D., Pizano,
C., Salgado-Negret, B., Smith, C. M., Trierweiler, A., van Bloem, S. J.,
Waring, B., Xu, X., & Powers, J. S. (2017). Will seasonally dry
tropical forests be sensitive or resistant to future changes in rainfall
regimes? Environmental Research Letters , 12(2), 023001.
Álvarez-Buylla, E. R., & Martı́nez-Ramos, M. (1992). Demography and
allometry of Cecropia obtusifolia , a neotropical pioneer tree -
an evaluation of the climax-pioneer paradigm for tropical rain forests.Journal of Ecology , 80(2), 275-290.
Bartha, S., Meiners, S. J., Pickett, S. T., & Cadenasso, M. L. (2003).
Plant colonization windows in a mesic old field succession.Applied Vegetation Science , 6(2), 205-212.
Barr, D. J., Levy, R., Scheepers, C., & Tily, H. J. (2013). Random
effects structure for confirmatory hypothesis testing: Keep it maximal.Journal of Memory and Language , 68(3), 255-278.
Bellingham, P. J., & Sparrow, A. D. (2000). Resprouting as a life
history strategy in woody plant communities. Oikos , 89(2),
409-416.
Berger, U., Adams, M., Grimm, V., & Hildenbrandt, H. (2006). Modelling
secondary succession of neotropical mangroves: Causes and consequences
of growth reduction in pioneer species. Perspectives in Plant
Ecology, Evolution and Systematics , 7(4), 243-252.
Bond, W. J., & Midgley, J. J. (2001). Ecology of sprouting in woody
plants: the persistence niche. Trends in Ecology & Evolution ,
16(1), 45-51.
Brienen, R. J., Lebrija‐Trejos, E., Van Breugel, M., Pérez‐García, E.
A., Bongers, F., Meave, J. A., & Martínez‐Ramos, M. (2009). The
potential of tree rings for the study of forest succession in southern
Mexico. Biotropica , 41(2), 186-195.
Brienen, R. Lebrija-Trejos, J., E., Zuidema, P. A., & Martı́nez-Ramos,
M. (2010). Climate-
growth analysis for a Mexican dry forest tree shows strong impact of sea
surface
temperatures and predicts future growth declines. Global Change
Biology , 16(7), 2001-2012.
Ceccon, E., Huante, P., & Rincón, E. (2006). Abiotic factors
influencing tropical dry forests regeneration. Brazilian Archives
of Biology and Technology , 49, 305-312.
Cervantes-Jiménez, G. L. (2018). Caracterización de la lluvia de
semillas durante la sucesión secundaria en una selva baja caducifolia
[Masters thesis]. Universidad Nacional Autónoma de México, México.
Chazdon, R. L. (2014). Second Growth: The Promise of Tropical
Forest Regeneration in an Age of Deforestation , Chicago: University of
Chicago Press.
Dalmaso, C. A., Marques, M. C., Higuchi, P., Zwiener, V. P., & Marques,
R. (2020). Spatial and temporal structure of diversity and demographic
dynamics along a successional gradient of tropical forests in southern
Brazil. Ecology and Evolution , 10(7), 3164-3177.
Dent, D. H., & Estrada-Villegas, S. (2021). Uniting niche
differentiation and dispersal limitation predicts tropical forest
succession. Trends in Ecology & Evolution , 36(8), 700-708.
Dietze, M. C., & Clark, J. S. (2008). Changing the gap dynamics
paradigm: vegetative regeneration control on forest response to
disturbance. Ecological Monographs , 78(3), 331-347.
Dunphy, B. K., Murphy, P. G., & Lugo, A. E. (2000). The tendency for
trees to be multiple-stemmed in tropical and subtropical dry forests:
studies of Guanica forest, Puerto Rico. Tropical Ecology , 41(2),
161-168.
Dupuy, J. M., Hernández-Stefanoni, J. L., Hernández-Juárez, R. A.,
Tetetla-Rangel, E.,
López-Martı́nez, J. O., Leyequién-Abarca, E., Tun-Dzul, F. J., May-Pat,
F. (2012). Patterns and correlates of tropical dry forest structure and
composition in a highly replicated chronosequence in Yucatan, Mexico.Biotropica 44(2), 151-162.
Easterling, M. R., Ellner, S. P., & Dixon, P. M. (2000). Size-specific
sensitivity: applying a
new structured population model. Ecology 81(3), 694-708.
Ellner, S. P., Childs, D. Z., & Rees, M. (2016). Data-driven
modelling of structured populations. A practical guide to the Integral
Projection Model . Cham: Springer.
FAO, 2015. Global Forest Resources Assessment 2015: How have the world’s
forests changed? Rome, Italy.
Finegan, B. (1996). Pattern and process in neotropical secondary rain
forest: the first 100
years of succession. Trends in Ecology and Evolution 11(3),
119-124.
Galia Selaya, N., Oomen, R. J., Netten, J. J., Werger, M. J., & Anten,
N. P. (2008). Biomass allocation and leaf life span in relation to light
interception by tropical forest plants during the first years of
secondary succession. Journal of Ecology , 96(6), 1211-1221.
González, E. J., Martorell, C. & Bolker, B. M. (2016). Inverse
estimation of integral projection model parameters using time series of
population-level data. Methods in Ecology and Evolution , 7(2),
147-156.
Grime, J. P. (1998). Benefits of plant diversity to ecosystems:
immediate, filter and founder effects. Journal of Ecology , 86(6),
902-910.
Guevara, S., & Laborde, J. (1993). Monitoring seed dispersal at
isolated standing trees in tropical pastures: consequences for local
species availability. In: Fleming, T. H. & A. Estrada. Frugivory
and seed dispersal: ecological and evolutionary aspects , Springer,
319-338.
Kennard, D. K. (2002). Secondary forest succession in a tropical dry
forest: patterns of development across a 50-year chronosequence in
lowland Bolivia. Journal of Tropical Ecology , 18(1), 53-66.
Kriegel, H. P., Schubert, E., & Zimek, A. (2017). The (black) art of
runtime evaluation: Are we comparing algorithms or implementations?Knowledge and Information Systems , 52, 341-378.
Lambin, E. F., & Meyfroidt, P. (2011). Global land use change, economic
globalization,
and the looming land scarcity. Proceedings of the National Academy
of Sciences
of the United States of America , 108(9), 3465-3472.
Lebrija-Trejos, E. (2004). Secondary Succession in a Tropical Dry Forest
of Southern
Mexico [Masters thesis]. Wageningen University & Research,
Netherlands.
Lebrija-Trejos, E., Bongers, F., Pérez-Garcı́a, E. A., & Meave, J. A.
(2008). Successional change and resilience of a very dry tropical
deciduous forest following shifting agriculture. Biotropica ,
40(4), 422-431.
Lebrija-Trejos, E., Pérez-Garcı́a, E. A., Meave, J. A., Poorter, L., &
Bongers, F. (2011). Environmental changes during secondary succession in
a tropical dry forest in Mexico. Journal of Tropical Ecology ,
27(5), 477-489.
Lebrija-Trejos, E., Pérez-García, E. A., Meave, J. A., Bongers, F., &
Poorter, L. (2010). Functional traits and environmental filtering drive
community assembly in a species‐rich tropical system. Ecology ,
91(2), 386-398.
Lebrija-Trejos, E., Meave, J. A., Poorter, L. Pérez-Garcı́a, E. A., &
Bongers, F. (2010). Pathways, mechanisms and predictability of
vegetation change during tropical dry forest succession.Perspectives in Plant Ecology, Evolution and Systematics , 12(4),
267-275.
Letcher, S. G., Lasky, J. R., Chazdon, R. L., Norden, N., Wright, S. J.,
Meave, J. A., Pérez-García, E. A., Muñoz, R., Romero-Pérez, E., Andrade,
A., Andrade, J. L., Balvanera, P., Becknell, J. M., Bentos, T. V.,
Bhaskar, R., Bongers, F., Boukili, V., Bracalion, P. H. S., César, R.
G., Clark, D. A., Clark, D. B., Craven, D., DeFrancesco, A., Dupuy, J.
M., Finegan, B., González-Jiménez, E., Hall, J. S., Harms, K. E.,
Hernández-Stefanoni, J. L., Hietz, P., Kennard, D., Killeen, T. J.,
Laurance, S. G., Lebrija-Trejos, E. E., Lohbeck, M., Martínez-Ramos, M.,
Masoca, P. E. S., Mesquita, R. C. G., Mora, F., Muscarella, R., Paz, H.,
Pineda-García, F., Powers, J. S., Quesada-Monge, R., Rodrigues, R. R.,
Sandor, M. E., Sanaphre-Villanueva, L., Schüller, E., Swenson, N. G.,
Tauro, A., Uriarte, M., van Breugel, M., Vargas-Ramírez, O., Viani, R.
A. G., Wendt, A. L., & Williamson, G. B. (2015). Environmental
gradients and the evolution of successional habitat specialization: A
test case with 14 Neotropical forest sites. Journal of Ecology ,
103(5), 1276-1290.
Maldonado-Romo, A. F. (2014). Fenología foliar y reproductiva de la
comunidad arbórea del bosque tropical caducifolio en Nizanda, Oaxaca,
México [Undergraduate thesis]. Universidad Nacional Autónoma de
México, México.
Markesteijn, L., L. Poorter, H. Paz, L. Sack, & F. Bongers (2011).
Ecological differentiation in xylem cavitation resistance is associated
with stem and leaf structural traits. Plant, Cell and Environment34(1), 137-148.
Martínez‐Ramos, M., Gallego‐Mahecha, M. D. M., Valverde, T., Vega, E.,
& Bongers, F. (2021). Demographic differentiation among pioneer tree
species during secondary succession of a Neotropical rainforest.Journal of Ecology, 109(10), 3572-3586.
Matsuo, T., Martínez‐Ramos, M., Bongers, F., van der Sande, M. T., &
Poorter, L. (2021). Forest structure drives changes in light
heterogeneity during tropical secondary forest succession. Journal
of Ecology , 109(8), 2871-2884
Maza-Villalobos, S., P. Balvanera, & M. Martı́nez-Ramos (2011). Early
regeneration of
tropical dry forest from abandoned pastures: contrasting chronosequence
and dynamic
approaches. Biotropica 43(6), 666-675.
Mazerolle, M. J., & Mazerolle, M. M. J. (2017). Package ‘AICcmodavg’. R
package, 281.
Meave, J. A., Flores-Rodríguez, C., Pérez-García, E. A., &
Romero-Romero, M. A. (2012). Edaphic and seasonal heterogeneity of seed
banks in agricultural fields of a tropical dry forest region in southern
Mexico. Botanical Sciences , 90(3), 313-329.
Mena-Gallardo, A. (2009). Variación del banco de semillas a lo largo de
la sucesión secundaria en un bosque tropical caducifolio del Sur de
México. [Undergraduate thesis]. Universidad Nacional Autónoma de
México, México.
Meyfroidt, P., & Lambin, E. F. (2011). Global forest transition:
prospects for an end to deforestation. Annual review of
environment and resources , 36, 343-371.
Mora, F., M. Martı́nez-Ramos, G. Ibarra-Manrı́quez, A. Pérez-Jiménez, J.
Trilleras, & P.
Balvanera (2015). Testing chronosequences through dynamic approaches:
time and site effects on tropical dry forest succession.Biotropica 47(1), 38-48.
Muñoz, R., Bongers, F., Rozendaal, D. M. A., González, E. J., Dupuy, J.
M., & Meave, J. A. (2021). Autogenic regulation and resilience in
tropical dry forest. Journal of Ecology , 109, 3295– 3307.
Muñoz, R., Enríquez, M., Bongers, F., López-Mendoza, R. D.,
Miguel-Talonia, C., & Meave, J. A. (2023). Lithological substrates
influence tropical dry forest structure, diversity, and composition, but
not its dynamics. Frontiers in Forests and Global Change , 6, 33.
Murphy, P. G., & Lugo, A. E. (1986). Ecology of tropical dry forest.Annual review of ecology and systematics , 17(1), 67-88.
Paul-Christian Bürkner (2017). brms: An R Package for Bayesian
Multilevel Models Using Stan. Journal of Statistical Software ,
80(1), 1-28. doi:10.18637/jss.v080.i01
Paul-Christian Bürkner (2018). Advanced Bayesian Multilevel Modeling
with the R Package brms. The R Journal , 10(1), 395-411.
doi:10.32614/RJ-2018-017
Peña‐Claros, M. (2003). Changes in forest structure and species
composition during secondary forest succession in the Bolivian Amazon.Biotropica , 35(4), 450-461.
Pérez-García, E. A., Meave, J., & Gallardo, C. (2001). Vegetación y
flora de la región de Nizanda, Istmo de Tehuantepec, Oaxaca, México.Acta Botanica Mexicana , (56), 19-88.
Pérez-Garcı́a, E. A., J. A. Meave, J. L. Villaseñor, J. A. Gallardo-Cruz,
& E. E. Lebrija-
Trejos (2010). Vegetation heterogeneity and life-strategy diversity in
the flora of the
heterogeneous landscape of Nizanda, Oaxaca, Mexico. Folia
Geobotanica 45(2), 143-161
Pineda-Garcı́a, F., H. Paz, & F. C. Meinzer (2013). Drought resistance
in early and late secondary successional species from a tropical dry
forest: The interplay between xylem resistance to embolism, sapwood
water storage and leaf shedding. Plant, Cell and Environment36(2), 405-418.
Poorter, L., Craven, D., Jakovac, C. C., van der Sande, M. T., Amissah,
L., Bongers, F., … & Hérault, B. (2021). Multidimensional tropical
forest recovery. Science, 374(6573), 1370-1376.
Purata, S. E. (1986). Floristic and structural changes during old-field
succession in the Mexican tropics in relation to site history and
species availability. Journal of Tropical Ecology 2(3), 257-276.
R Core Team (2023). R: A Language and Environment for Statistical.
Computing. R Foundation for Statistical Computing, Vienna, Austria.
https://www.R-project.org/
Rodrigues, R. R., Torres, R. B., Matthes, L. A., & Penha, A. S. (2004).
Tree species sprouting from root buds in a semideciduous forest affected
by fires. Brazilian Archives of Biology and Technology , 47,
127-133.
Romero-Pérez, I. E. (2014). Atributos Funcionales y Desempeño de
Especies Arbóreas
Durante la Sucesión Secundaria de un Bosque Tropical Caducifolio
[Masters thesis].
Universidad Nacional Autónoma de México, México.
Romero, E., Dávalos-Sotelo, R., Meave, J. A., & Terrazas, T. (2020).
Wood density, deposits and mineral inclusions of successional tropical
dry forest species. European Journal of Forest Research , 139(3),
369-381.
Romero, E., González, E. J., Meave, J. A., & Terrazas, T. (2020). Wood
anatomy of dominant species with contrasting ecological performance in
tropical dry forest succession. Plant Biosystems-An International
Journal Dealing with all Aspects of Plant Biology , 154(4), 524-534.
Rozendaal, D. M., & R. L. Chazdon (2015). Demographic drivers of tree
biomass change
during secondary succession in northeastern Costa Rica. Ecological
Applications 25(2), 506-516.
Rozendaal, D. M., R. L. Chazdon, F. Arreola-Villa, P. Balvanera, T. V.
Bentos, J. M.
Dupuy, J. L., … F. Bongers (2016). Demographic drivers of aboveground
biomass dynamics during secondary succession in neotropical dry and wet
forests. Ecosystems 20(2), 340-353.
Rüger, N., Schorn, M. E., Kambach, S., Chazdon, R. L., Farrior, C. E.,
Meave, J. A., … & Lopez, O. R. (2023). Successional shifts in tree
demographic strategies in wet and dry Neotropical forests. Global
Ecology and Biogeography , 32(6), 1002-1014.
Runyan, C., & D’Odorico, P. (2016). Global Deforestation .
Cambridge University Press. New York.
Saenz-Pedroza, I., Feldman, R., Reyes-García, C., Meave, J. A.,
Calvo-Irabien, L. M., May-Pat, F., & Dupuy, J. M. (2020). Seasonal and
successional dynamics of size-dependent plant demographic rates in a
tropical dry forest. PeerJ , 8, e9636.
Van Bloem, S. J., Murphy, P. G., & Lugo, A. E. (2007). A link between
hurricane-induced tree sprouting, high stem density and short canopy in
tropical dry forest. Tree Physiology , 27(3), 475-480.
Vieira, D. L., & Scariot, A. (2006). Principles of natural regeneration
of tropical dry forests for restoration. Restoration ecology ,
14(1), 11-20.
Wallace, A., & Romney, E. M. (1980). The role of pioneer species in
revegetation of disturbed desert areas. Great Basin Naturalist
Memoirs , 31-33.
White, A. S. (1991). The importance of different forms of regeneration
to secondary succession in a Maine hardwood forest. Bulletin of
the Torrey Botanical Club , 303-311.
Wood, S., Scheipl, F., & Wood, M. S. (2017). Package ‘gamm4’. Am
Stat , 45(339), 0-2.