Advanced search
Publication Cover
Plant Ecology & Diversity Volume 9, 2016 - Issue 3
Submit an article Journal homepage
18,904
Views
165
CrossRef citations to date
0
Altmetric
Grubb Review

Shedding light on shade: ecological perspectives of understorey plant life

Fernando ValladaresLaboratorio Internacional de Cambio Global (LINC-Global), Museo de Ciencias Naturales MNCN-CSIC, Madrid, España;Departamento de Biología y Geología, Escuela Superior de Ciencias Experimentales y Tecnológicas, Universidad Rey Juan Carlos, Móstoles, EspañaORCID Iconhttp://orcid.org/0000-0002-5374-4682View further author information
ORCID Icon,
Lauri LaanistoInstitute of Agricultural and Environmental Sciences, Estonian University of Life Sciences, Tartu, EstoniaCorrespondence[email protected]
ORCID Iconhttp://orcid.org/0000-0003-2215-7298View further author information
ORCID Icon,
Ülo NiinemetsInstitute of Agricultural and Environmental Sciences, Estonian University of Life Sciences, Tartu, EstoniaORCID Iconhttp://orcid.org/0000-0002-3078-2192View further author information
ORCID Icon &
Miguel A. ZavalaDepartamento de Ciencias de la Vida, Campus Universitario, Alcalá de Henares (Madrid), EspañaORCID Iconhttp://orcid.org/0000-0003-1456-0132View further author information
ORCID Icon
Pages 237-251 | Received 15 Feb 2016, Accepted 04 Jul 2016, Published online: 05 Aug 2016

References

  • Abrams MD, Mostoller SA. 1995. Gas exchange, leaf structure and nitrogen in contrasting successional tree species growing in open and understory sites during a drought. Tree Physiology 15:361–370.
  • Anthony PA, Holtum JAM, Jackes BR. 2002. Shade acclimation of rainforest leaves to colonization by lichens. Functional Ecology 16:808–816.
  • Atkin OK, Tjoelker MG. 2003. Thermal acclimation and the dynamic response of plant respiration to temperature. Trends in Plant Science 8:343–351.
  • Augspurger CK. 1984. Light requirements of neotropical tree seedlings: a comparative study of growth and survival. The Journal of Ecology 72:777–795.
  • Baldwin IT, Halitschke R, Paschold A, Von Dahl CC, Preston CA. 2006. Volatile signaling in plant-plant interactions: “talking trees” in the genomics era. Science 311:812–815.
  • Baltzer JL, Thomas SC. 2007. Physiological and morphological correlates of whole-plant light compensation point in temperate deciduous tree seedlings. Oecologia 153:209–223.
  • Baraza E, Gómez JM, Hódar JA, Zamora R. 2004. Herbivory has a greater impact in shade than in sun: response of Quercus pyrenaica seedlings to multifactorial environmental variation. Canadian Journal of Botany 82:357–364.
  • Barros VR, Field CB, Dokke DJ, Mastrandrea MD, Mach KJ, Bilir TE, Chatterjee M, Ebi KL, Estrada YO, Genova RC, Girma B. 2015. Climate change 2014: impacts, adaptation, and vulnerability. Part B: regional aspects. Contribution of Working Group II to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change. Cambridge (UK): Cambridge University Press.
  • Baudena M, Dekker SC, van Bodegom PM, Cuesta B, Higgins SI, Lehsten V, Reick CH, Rietkerk M, Scheiter S, Yin Z, Zavala MA. 2014. Forests, savannas and grasslands: bridging the knowledge gap between ecology and dynamic global vegetation models. Biogeosciences Discussions 11:9471–9510.
  • Bazzaz FA, Pickett STA. 1980. Physiological ecology of tropical succession: a comparative review. Annual Review of Ecology and Systematics 11:287–310.
  • Birks HJB. 2005. Mind the gap: how open were European primeval forests? Trends in Ecology & Evolution 20:154–156.
  • Blande JD, Holopainen JK, Niinemets Ü. 2014. Plant volatiles in polluted atmospheres: stress responses and signal degradation. Plant, Cell & Environment 37:1892–1904.
  • Bonan GB, Shugart HH. 1989. Environmental factors and ecological processes in boreal forests. Annual Review of Ecology and Systematics 20:1–28.
  • Brooker RW, Maestre FT, Callaway RM, Lortie CL, Cavieres LA, Kunstler G, Liancourt P, Tielbörger K, Travis JM, Anthelme F, Armas C. 2008. Facilitation in plant communities: the past, the present, and the future. Journal of Ecology 96:18–34.
  • Bugmann H. 1996. Functional types of trees in temperate and boreal forests: classification and testing. Journal of Vegetation Science 7:359–370.
  • Bugmann HK, Yan X, Sykes MT, Martin P, Lindner M, Desanker PV, Cumming SG. 1996. A comparison of forest gap models: model structure and behaviour. Climatic Change 34:289–313.
  • Callaway RM. 1995. Positive interactions among plants. The Botanical Review 61:306–349.
  • Callaway RM. 2007. Positive interactions and interdependence in plant communities. New York (NY): Springer-Verlag.
  • Canham CD, Finzi AC, Pacala SW, Burbank DH. 1994. Causes and consequences of resource heterogeneity in forests: interspecific variation in light transmission by canopy trees. Canadian Journal of Forest Research 24:337–349.
  • Cavender-Bares J, Bazzaz FA. 2000. Changes in drought response strategies with ontogeny in Quercus rubra: implications for scaling from seedlings to mature trees. Oecologia 124:8–18.
  • Copolovici L, Kännaste A, Remmel T, Niinemets Ü. 2014. Volatile organic compound emissions from Alnus glutinosa under interacting drought and herbivory stresses. Environmental and Experimental Botany 100:55–63.
  • Coyle JR, Halliday FW, Lopez BE, Palmquist KA, Wilfahrt PA, Hurlbert AH. 2014. Using trait and phylogenetic diversity to evaluate the generality of the stress‐dominance hypothesis in eastern North American tree communities. Ecography 37:814–826.
  • Cramer W, Bondeau A, Woodward FI, Prentice IC, Betts RA, Brovkin V, Cox PM, Fisher V, Foley JA, Friend AD, Kucharik C. 2001. Global response of terrestrial ecosystem structure and function to CO2 and climate change: results from six dynamic global vegetation models. Global Change Biology 7:357–373.
  • De Frenne P, Rodríguez-Sánchez F, Coomes DA, Baeten L, Verstraeten G, Vellend M, Bernhardt-Römermann M, Brown CD, Brunet J, Cornelis J, Decocq GM. 2013. Microclimate moderates plant responses to macroclimate warming. Proceedings of the National Academy of Sciences 110:18561–18565.
  • DeLucia EH, Thomas RB. 2000. Photosynthetic responses to CO2 enrichment of four hardwood species in a forest understory. Oecologia 122:11–19.
  • Dent DH, DeWalt SJ, Denslow JS. 2013. Secondary forests of central Panama increase in similarity to old‐growth forest over time in shade tolerance but not species composition. Journal of Vegetation Science 24:530–542.
  • Figueroa JA, Lusk CH. 2001. Germination requirements and seedling shade tolerance are not correlated in a Chilean temperate rain forest. New Phytologist 152:483–489.
  • Fischer R, Bohn F, de Paula MD, Dislich C, Groeneveld J, Gutiérrez AG, Kazmierczak M, Knapp N, Lehmann S, Paulick S, Pütz S. 2016. Lessons learned from applying a forest gap model to understand ecosystem and carbon dynamics of complex tropical forests. Ecological Modelling 326:124–133.
  • Franceschini T, Schneider R. 2014. Influence of shade tolerance and development stage on the allometry of ten temperate tree species. Oecologia 176:739–749.
  • Gayer K. 1898. Der Waldbau. vierte, verbesserte Auflage edition. Berlin (Germany): Verlagsbuchhandlung Paul Parey.
  • Germino MJ, Smith WK. 1999. Sky exposure, crown architecture, and low‐temperature photoinhibition in conifer seedlings at alpine treeline. Plant, Cell & Environment 22:407–415.
  • Getzin S, Wiegand T, Hubbell SP. 2014. Stochastically driven adult–recruit associations of tree species on Barro Colorado Island. Proceedings of the Royal Society of London B: Biological Sciences 281:20140922.
  • Givnish TJ. 1988. Adaptation to sun and shade: a whole-plant perspective. Functional Plant Biology 15:63–92.
  • Goldberg DE. 1990. Components of resource competition in plant communities. In: Grace JB, Tilman D, editors. Perspectives on plant competition. San Diego (CA): Academic Press. p. 27–49.
  • Gómez JM, Valladares F, Puerta‐Piñero C. 2004. Differences between structural and functional environmental heterogeneity caused by seed dispersal. Functional Ecology 18:787–792.
  • Gómez-Aparicio L, Canham CD. 2008. Neighborhood models of the effects of invasive tree species on ecosystem processes. Ecological Monographs 78:69–86.
  • Gómez-Aparicio L, Gómez JM, Zamora R, Boettinger JL. 2005. Canopy vs. soil effects of shrubs facilitating tree seedlings in Mediterranean montane ecosystems. Journal of Vegetation Science 16:191–198.
  • Gómez‐Aparicio L, Zamora R, Castro J, Hódar JA. 2008. Facilitation of tree saplings by nurse plants: microhabitat amelioration or protection against herbivores? Journal of Vegetation Science 19:161–172.
  • Gravel D, Canham CD, Beaudet M, Messier C. 2006. Reconciling niche and neutrality: the continuum hypothesis. Ecology Letters 9:399–409.
  • Grubb PJ. 2015. Trade-offs in interspecific comparisons in plant ecology and how plants overcome proposed constraints. Plant Ecology & Diversity 9:3–33.
  • Hallik L, Niinemets Ü, Wright IJ. 2009. Are species shade and drought tolerance reflected in leaf‐level structural and functional differentiation in Northern Hemisphere temperate woody flora? New Phytologist 184:257–274.
  • Hättenschwiler S. 2001. Tree seedling growth in natural deep shade: functional traits related to interspecific variation in response to elevated CO2. Oecologia 129:31–42.
  • Hättenschwiler S, Körner C. 2003. Does elevated CO2 facilitate naturalization of the non‐indigenous Prunus laurocerasus in Swiss temperate forests? Functional Ecology 17:778–785.
  • Hawkins BA, Rueda M, Rangel TF, Field R, Diniz‐Filho JAF. 2014. Community phylogenetics at the biogeographical scale: cold tolerance, niche conservatism and the structure of North American forests. Journal of Biogeography 41:23–38.
  • Henry HA, Aarssen LW. 1997. On the relationship between shade tolerance and shade avoidance strategies in woodland plants. Oikos 80:575–582.
  • Herrera CM. 1997. Thermal biology and foraging responses of insect pollinators to the forest floor irradiance mosaic. Oikos 78:601–611.
  • Hickler T, Smith B, Sykes MT, Davis MB, Sugita S, Walker K. 2004. Using a generalized vegetation model to simulate vegetation dynamics in northeastern USA. Ecology 85:519–530.
  • Holmgren M, Gómez-Aparicio L, Quero JL, Valladares F. 2012. Non-linear effects of drought under shade: reconciling physiological and ecological models in plant communities. Oecologia 169:293–305.
  • Hubbell SP. 2001. The unified neutral theory of biodiversity and biogeography (MPB-32). Vol. 32. Princeton (NJ): Princeton University Press.
  • Jacobs AFG, Van Boxel JH, El-Kilani RMM. 1994. Nighttime free convection characteristics within a plant canopy. Boundary-Layer Meteorology 71:375–391.
  • Jacobs P. 2003. Mildew (Microsphaera alphitoides) as possible important factor in limiting height growth of oak (Quercus robur) [MSc thesis]. Wageningen: Forest and Nature Conservation, Wageningen University.
  • Joffre R, Rambal S. 1993. How tree cover influences the water balance of Mediterranean rangelands. Ecology 74:570–582.
  • Jones CG, Lawton JH, Shachak M. 1997. Positive and negative effects of organisms as physical ecosystem engineers. Ecology 78:1946–1957.
  • Jucker T, Bouriaud O, Coomes DA. 2015. Crown plasticity enables trees to optimize canopy packing in mixed‐species forests. Functional Ecology 29:1078–1086.
  • Kim D, Oren R, Qian SS. 2015. Response to CO2 enrichment of understory vegetation in the shade of forests. Global Change Biology. doi:10.1111/gcb.13126
  • Kitajima K. 1994. Relative importance of photosynthetic traits and allocation patterns as correlates of seedling shade tolerance of 13 tropical trees. Oecologia 98:419–428.
  • Kitajima K, Poorter L. 2008. Functional basis for resource niche partitioning by tropical trees. In: Carson WP, Schnitzer SA, editors. Tropical forest community ecology. London: Blackwell. p. 172–188.
  • Kneeshaw DD, Kobe RK, Coates KD, Messier C. 2006. Sapling size influences shade tolerance ranking among southern boreal tree species. Journal of Ecology 94:471–480.
  • Kobe RK, Coates KD. 1997. Models of sapling mortality as a function of growth to characterize interspecific variation in shade tolerance of eight tree species of northwestern British Columbia. Canadian Journal of Forest Research 27:227–236.
  • Kohyama T, Suzuki E, Partomihardjo T, Yamada T, Kubo T. 2003. Tree species differentiation in growth, recruitment and allometry in relation to maximum height in a Bornean mixed dipterocarp forest. Journal of Ecology 91:797–806.
  • Kunstler G, Curt T, Bouchaud M, Lepart J. 2005. Growth, mortality, and morphological response of European beech and downy oak along a light gradient in sub-Mediterranean forest. Canadian Journal of Forest Research 35:1657–1668.
  • Kunstler G, Curt T, Bouchaud M, Lepart J. 2006. Indirect facilitation and competition in tree species colonization of sub‐Mediterranean grasslands. Journal of Vegetation Science 17:379–388.
  • Kunstler G, Falster D, Coomes DA, Hui F, Kooyman RM, Laughlin DC, Poorter L, Vanderwel M, Vieilledent G, Wright SJ, et al. 2016. Plant functional traits have globally consistent effects on competition. Nature 529:204–207.
  • Kursar TA. 1998. Relating tree physiology to past and future changes in tropical rainforest tree communities. In: Markham A, editor. Potential impacts of climate change on tropical forest ecosystems. Dordrecht: Springer. p. 223–239.
  • Laanisto L, Niinemets Ü. 2015. Polytolerance to abiotic stresses: how universal is the shade–drought tolerance trade‐off in woody species? Global Ecology and Biogeography 24:571–580.
  • Lilles EB, Astrup R, Lefrançois ML, Coates KD. 2014. Sapling leaf trait responses to light, tree height and soil nutrients for three conifer species of contrasting shade tolerance. Tree Physiology tpu092 34:1334–1347.
  • Lin J, Harcombe PA, Fulton MR, Hall RW. 2002. Sapling growth and survivorship as a function of light in a mesic forest of southeast Texas, USA. Oecologia 132:428–435.
  • Lindow SE, Brandl MT. 2003. Microbiology of the phyllosphere. Applied and Environmental Microbiology 69:1875–1883.
  • Liu S. 1997. A new model for the prediction of rainfall interception in forest canopies. Ecological Modelling 99:151–159.
  • Lortie CJ, Callaway RM. 2006. Re‐analysis of meta‐analysis: support for the stress‐gradient hypothesis. Journal of Ecology 94:7–16.
  • Lusk CH, Falster DS, Jara‐Vergara CK, Jimenez‐Castillo M, Saldaña‐Mendoza A. 2008. Ontogenetic variation in light requirements of juvenile rainforest evergreens. Functional Ecology 22:454–459.
  • Lusk CH, Jorgensen MA, Bellingham PJ. 2015. A conifer–angiosperm divergence in the growth vs. shade tolerance trade‐off underlies the dynamics of a New Zealand warm‐temperate rain forest. Journal of Ecology 103:479–488.
  • Ma RY, Zhang JL, Cavaleri MA, Sterck F, Strijk JS, Cao KF. 2015. Convergent evolution towards high net carbon gain efficiency contributes to the shade tolerance of palms (Arecaceae). PloS one 10:e0140384.
  • Maestre FT, Valladares F, Reynolds JF. 2006. The stress‐gradient hypothesis does not fit all relationships between plant–plant interactions and abiotic stress: further insights from arid environments. Journal of Ecology 94:17–22.
  • Manrique R, Gutiérrez JR, Holmgren M, Squeo FA. 2007. Reduced herbivory during simulated ENSO rainy events increases native herbaceous plants in semiarid Chile. Plant Ecology 191:21–31.
  • Markesteijn L, Poorter L. 2009. Seedling root morphology and biomass allocation of 62 tropical tree species in relation to drought‐and shade‐tolerance. Journal of Ecology 97:311–325.
  • Martin PH, Marks PL. 2006. Intact forests provide only weak resistance to a shade‐tolerant invasive Norway maple (Acer platanoides L.). Journal of Ecology 94:1070–1079.
  • Mazza CA, Izaguirre MM, Zavala J, Scopel AL, Ballaré CL. 2002. Insect perception of ambient ultraviolet‐B radiation. Ecology Letters 5:722–726.
  • Meehl GA, Stocker TF, Collins WD, Friedlingstein P, Gaye AT, Gregory JM, Kitoh A, Knutti R, Murphy JM, Noda A, Raper SC. 2007. Global climate projections. Climate change, 283. In: Solomon S, et al. editors. Climate change 2007: the physical science basis. Cambridge (UK): Cambridge University Press; p. 747–847.
  • Miriti MN. 2006. Ontogenetic shift from facilitation to competition in a desert shrub. Journal of Ecology 94:973–979.
  • Miyashita A, Tateno M. 2014. A novel index of leaf RGR predicts tree shade tolerance. Functional Ecology 28:1321–1329.
  • Modrzynski J, Chmura DJ, Tjoelker MG. 2015. Seedling growth and biomass allocation in relation to leaf habit and shade tolerance among 10 temperate tree species. Tree Physiology tpv053 35:879–893.
  • Nieto‐Lugilde D, Lenoir J, Abdulhak S, Aeschimann D, Dullinger S, Gégout JC, Guisan A, Pauli H, Renaud J, Theurillat JP, Thuiller W. 2014. Tree cover at fine and coarse spatial grains interacts with shade tolerance to shape plant species distributions across the Alps. Ecography 38:578–589.
  • Niinemets U. 2006. The controversy over traits conferring shade‐tolerance in trees: ontogenetic changes revisited. Journal of Ecology 94:464–470.
  • Niinemets U. 2007. Photosynthesis and resource distribution through plant canopies. Plant, Cell & Environment 30:1052–1071.
  • Niinemets Ü. 1998. Growth of young trees of Acer platanoides and Quercus robur along a gap-understory continuum: interrelationships between allometry, biomass partitioning, nitrogen, and shade tolerance. International Journal of Plant Sciences 159:318–330.
  • Niinemets Ü. 2010. A review of light interception in plant stands from leaf to canopy in different plant functional types and in species with varying shade tolerance. Ecological Research 25:693–714.
  • Niinemets Ü, Valladares F. 2004. Photosynthetic acclimation to simultaneous and interacting environmental stresses along natural light gradients: optimality and constraints. Plant Biology 6:254–268.
  • Niinemets Ü, Valladares F. 2006. Tolerance to shade, drought, and waterlogging of temperate Northern Hemisphere trees and shrubs. Ecological Monographs 76:521–547.
  • Niinemets Ü, Valladares F, Ceulemans R. 2003. Leaf‐level phenotypic variability and plasticity of invasive Rhododendron ponticum and non‐invasive Ilex aquifolium co‐occurring at two contrasting European sites. Plant, Cell & Environment 26:941–956.
  • Niinemets Ü, Wright IJ, Evans JR. 2009. Leaf mesophyll diffusion conductance in 35 Australian sclerophylls covering a broad range of foliage structural and physiological variation. Journal of Experimental Botany 60:2433–2449.
  • O’Brien MJ, Philipson CD, Tay J, Hector A. 2013. The influence of variable rainfall frequency on germination and early growth of shade-tolerant dipterocarp seedlings in Borneo. PloS one 8:e70287.
  • Ögren E, Nilsson T, Sundblad LG. 1997. Relationship between respiratory depletion of sugars and loss of cold hardiness in coniferous seedlings over‐wintering at raised temperatures: indications of different sensitivities of spruce and pine. Plant, Cell & Environment 20:247–253.
  • Ojeda F. 1998. Biogeography of seeder and resprouter Erica species in the Cape Floristic Region—Where are the resprouters? Biological Journal of the Linnean Society 63:331–347.
  • Ouédraogo DY, Mortier F, Gourlet‐Fleury S, Freycon V, Picard N. 2013. Slow‐growing species cope best with drought: evidence from long‐term measurements in a tropical semi‐deciduous moist forest of Central Africa. Journal of Ecology 101:1459–1470.
  • Pacala SW, Canham CD, Saponara J, Silander Jr JA, Kobe RK, Ribbens E. 1996. Forest models defined by field measurements: estimation, error analysis and dynamics. Ecological Monographs 66:1–43.
  • Pagès JP, Pache G, Joud D, Magnan N, Michalet R. 2003. Direct and indirect effects of shade on four forest tree seedlings in the French Alps. Ecology 84:2741–2750.
  • Parmesan C. 2006. Ecological and evolutionary responses to recent climate change. Annual Review of Ecology, Evolution, and Systematics 37:637–669.
  • Pérez‐Ramos IM, Urbieta IR, Maranón T, Zavala MA, Kobe RK. 2008. Seed removal in two coexisting oak species: ecological consequences of seed size, plant cover and seed‐drop timing. Oikos 117:1386–1396.
  • Pivovaroff A, Sharifi R, Scoffoni C, Sack L, Rundel P. 2014. Making the best of the worst of times: traits underlying combined shade and drought tolerance of Ruscus aculeatus and Ruscus microglossum (Asparagaceae). Functional Plant Biology 41:11–24.
  • Poorter H, Niklas KJ, Reich PB, Oleksyn J, Poot P, Mommer L. 2012. Biomass allocation to leaves, stems and roots: meta‐analyses of interspecific variation and environmental control. New Phytologist 193:30–50.
  • Poorter L. 1999. Growth responses of 15 rain‐forest tree species to a light gradient: the relative importance of morphological and physiological traits. Functional Ecology 13:396–410.
  • Poorter L, Arets EJ. 2003. Light environment and tree strategies in a Bolivian tropical moist forest: an evaluation of the light partitioning hypothesis. Plant Ecology 166:295–306.
  • Poorter L, Bongers F. 2006. Leaf traits are good predictors of plant performance across 53 rain forest species. Ecology 87:1733–1743.
  • Pritchard S, Rogers H, Prior SA, Peterson C. 1999. Elevated CO2 and plant structure: a review. Global Change Biology 5:807–837.
  • Pugnaire FI, Armas C, Valladares F. 2004. Soil as a mediator in plant-plant interactions in a semi-arid community. Journal of Vegetation Science 15:85–92.
  • Purves D, Pacala S. 2008. Predictive models of forest dynamics. Science 320:1452–1453.
  • Quero JL, Gómez-Aparicio L, Zamora R, Maestre FT. 2008. Shifts in the regeneration niche of an endangered tree (Acer opalus ssp. granatense) during ontogeny: using an ecological concept for application. Basic and Applied Ecology 9:635–644.
  • Reinhart KO, Gurnee J, Tirado R, Callaway RM. 2006. Invasion through quantitative effects: intense shade drives native decline and invasive success. Ecological Applications 16:1821–1831.
  • Retana J, Espelta JM, Gracia M, Riba M. 1999. Seedling recruitment. In: Rodà F, Retana J, Gracia CA, Bellot J, editors. Ecology of Mediterranean evergreen oak forests. Berlin: Springer; p. 89–103.
  • Sack L. 2004. Responses of temperate woody seedlings to shade and drought: do trade‐offs limit potential niche differentiation? Oikos 107:110–127.
  • Sánchez‐Gómez D, Valladares F, Zavala MA. 2006. Performance of seedlings of Mediterranean woody species under experimental gradients of irradiance and water availability: trade‐offs and evidence for niche differentiation. New Phytologist 170:795–806.
  • Santo-Silva EE, Withey KD, Almeida WR, Mendes G, Lopes AV, Tabarelli M. 2015. Seedling assemblages and the alternative successional pathways experienced by Atlantic forest fragments. Plant Ecology & Diversity 8:483–492.
  • Saxe H, Ellsworth DS, Heath J. 1998. Tree and forest functioning in an enriched CO2 atmosphere. New Phytologist 139:395–436.
  • Sellin A, Õunapuu E, Karusion A. 2010. Experimental evidence supporting the concept of light-mediated modulation of stem hydraulic conductance. Tree Physiology 30:1528–1535.
  • Semchenko M, Lepik M, Götzenberger L, Zobel K. 2012. Positive effect of shade on plant growth: amelioration of stress or active regulation of growth rate? Journal of Ecology 100:459–466.
  • Sendall KM, Lusk CH, Reich PB. 2015. Trade‐offs in juvenile growth potential vs. shade tolerance among subtropical rain forest trees on soils of contrasting fertility. Functional Ecology 30:845–855.
  • Shirley HL. 1943. Is tolerance the capacity to endure shade? Journal of Forestry 41:339–345.
  • Shugart HH. 1984. A theory of forest dynamics: the ecological implications of forest succession models. Berlin: Springer Verlag.
  • Shugart HH, West DC. 1980. Forest succession models. BioScience 30:308–313.
  • Smit C, Vandenberghe C, Den Ouden J, Müller-Schärer H. 2007. Nurse plants, tree saplings and grazing pressure: changes in facilitation along a biotic environmental gradient. Oecologia 152:265–273.
  • Smith B, Prentice IC, Sykes MT. 2001. Representation of vegetation dynamics in the modelling of terrestrial ecosystems: comparing two contrasting approaches within European climate space. Global Ecology & Biogeography 10:621–637.
  • Smith T, Huston M. 1989. A theory of the spatial and temporal dynamics of plant communities. Vegetatio 83:49–69.
  • Stahl U, Kattge J, Reu B, Voigt W, Ogle K, Dickie J, Wirth C. 2013. Whole-plant trait spectra of North American woody plant species reflect fundamental ecological strategies. Ecosphere 4:art128.
  • Stott P, Loehle C. 1998. Height growth rate tradeoffs determine northern and southern range limits for trees. Journal of Biogeography 25:735–742.
  • Sultan SE. 2001. Phenotypic plasticity for fitness components in Polygonum species of contrasting ecological breadth. Ecology 82:328–343.
  • Thurow TL, Blackburn WH, Warren SD, Taylor Jr CA. 1987. Rainfall interception by midgrass, shortgrass, and live oak mottes. Journal of Range Management 40:455–460.
  • Tielbörger K, Kadmon R. 2000. Temporal environmental variation tips the balance between facilitation and interference in desert plants. Ecology 81:1544–1553.
  • Tjoelker MG, Oleksyn J, Reich PB. 1998. Seedlings of five boreal tree species differ in acclimation of net photosynthesis to elevated CO2 and temperature. Tree Physiology 18:715–726.
  • Tomimatsu H, Iio A, Adachi M, Saw LG, Fletcher C, Tang Y. 2014. High CO2 concentration increases relative leaf carbon gain under dynamic light in Dipterocarpus sublamellatus seedlings in a tropical rain forest, Malaysia. Tree physiology tpu066 34:944–954.
  • Traveset A, Moragues E, Valladares F. 2008. Spreading of the invasive Carpobrotus aff. acinaciformis in Mediterranean ecosystems: the advantage of performing in different light environments. Applied Vegetation Science 11:45–54.
  • Urbieta IR, Perez-Ramos IM, Zavala MA, Marañón T, Kobe RK. 2008. Soil water content and emergence time control seedling establishment in three co-occurring Mediterranean oak species. Canadian Journal of Forest Research 38:2382–2393.
  • Valiente-Banuet A, Ezcurra E. 1991. Shade as a cause of the association between the cactus Neobuxbaumia tetetzo and the nurse plant Mimosa luisana in the Tehuacan Valley, Mexico. The Journal of Ecology 79:961–971.
  • Valiente-Banuet A, Rumebe AV, Verdú M, Callaway RM. 2006. Modern Quaternary plant lineages promote diversity through facilitation of ancient Tertiary lineages. Proceedings of the National Academy of Sciences 103:16812–16817.
  • Valiente-Banuet A, Verdú M. 2013. Plant facilitation and phylogenetics. Annual Review of Ecology, Evolution, and Systematics 44:347–366.
  • Valiente‐Banuet A, Verdú M. 2008. Temporal shifts from facilitation to competition occur between closely related taxa. Journal of Ecology 96:489–494.
  • Valladares F, Bastias CC, Godoy O, Granda E, Escudero A. 2015. Species coexistence in a changing world. Frontiers in Plant Science 6:866.
  • Valladares F, Gianoli E, Gómez JM. 2007. Ecological limits to plant phenotypic plasticity. New Phytologist 176:749–763.
  • Valladares F, Niinemets Ü. 2008. Shade tolerance, a key plant feature of complex nature and consequences. Annual Review of Ecology, Evolution, and Systematics 39:237–257.
  • Valladares F, Pearcy RW. 2002. Drought can be more critical in the shade than in the sun: a field study of carbon gain and photo‐inhibition in a Californian shrub during a dry El Niño year. Plant, Cell & Environment 25:749–759.
  • Valladares F, Zaragoza-Castells J, Sánchez-Gómez D, Matesanz S, Alonso B, Portsmuth A, Delgado A, Atkin OK. 2008. Is shade beneficial for Mediterranean shrubs experiencing periods of extreme drought and late-winter frosts? Annals of Botany 102:923–933.
  • Verdú M, Valiente‐Banuet A. 2008. The nested assembly of plant facilitation networks prevents species extinctions. The American Naturalist 172:751–760.
  • Wise MJ, Abrahamson WG. 2007. Effects of resource availability on tolerance of herbivory: a review and assessment of three opposing models. The American Naturalist 169:443–454.
  • Wright SJ, Muller-Landau HC, Condit R, Hubbell SP. 2003. Gap-dependent recruitment, realized vital rates, and size distributions of tropical trees. Ecology 84:3174–3185.
  • Xu C, Vergnon R, Cornelissen JHC, Hantson S, Holmgren M, van Nes EH, Scheffer M. 2015. Temperate forest and open landscapes are distinct alternative states as reflected in canopy height and tree cover. Trends in Ecology & Evolution 20:1–3.
  • Zanne AE, Tank DC, Cornwell WK, Eastman JM, Smith SA, FitzJohn RG, McGlinn DJ, O’Meara BC, Moles AT, Reich PB, Royer DL. 2014. Three keys to the radiation of angiosperms into freezing environments. Nature 506:89–92.
  • Zaragoza‐Castells J, Sánchez‐Gómez D, Hartley IP, Matesanz S, Valladares F, Lloyd J, Atkin OK. 2008. Climate‐dependent variations in leaf respiration in a dry‐land, low productivity Mediterranean forest: the importance of acclimation in both high‐light and shaded habitats. Functional Ecology 22:172–184.
  • Zavala MA, Angulo Ó, de la Parra RB, López-Marcos JC. 2007. An analytical model of stand dynamics as a function of tree growth, mortality and recruitment: the shade tolerance-stand structure hypothesis revisited. Journal of Theoretical Biology 244:440–450.
  • Zavala MA, Espelta JM, Caspersen J, Retana J. 2011. Interspecific differences in sapling performance with respect to light and aridity gradients in Mediterranean pine–oak forests: implications for species coexistence. Canadian Journal of Forest Research 41:1432–1444.
  • Zavala MA, Espelta JM, Retana J. 2000. Constraints and trade-offs in Mediterranean plant communities: the case of holm oak-Aleppo pine forests. The Botanical Review 66:119–149.
  • Zhang Q, Zhang TJ, Chow WS, Xie X, Chen YJ, Peng CL. 2015. Photosynthetic characteristics and light energy conversions under different light environments in five tree species occupying dominant status at different stages of subtropical forest succession. Functional Plant Biology 42:609.
  • Zon R, Graves HS. 1911. Light in relation to tree growth (No. 92). Washington (DC): US Department of Agriculture, Forest Service.

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.