Ecophysiological Traits May Explain the Abundance of Climbing Plant Species across the Light Gradient in a Temperate Rainforest

Climbing plants are a key component of rainforests, but mechanistic approaches to their distribution and abundance are scarce. In a southern temperate rainforest, we addressed whether the dominance of climbing plants across light environments is associated with the expression of ecophysiological traits. In mature forest and canopy gaps, we measured leaf size, specific leaf area, photosynthetic rate, and dark respiration in six of the most abundant woody vines. Mean values of traits and their phenotypic change (%) between mature forest and canopy gaps were predictor variables. Leaf size and specific leaf area were not significantly associated with climbing plant dominance. Variation in gas-exchange traits between mature forest and canopy gaps explained, at least partly, the dominance of climbers in this forest. A greater increase in photosynthetic rate and a lower increase in dark respiration rate when canopy openings occur were related to the success of climbing plant species. Dominant climbers showed a strategy of maximizing exploitation of resource availability but minimizing metabolic costs. Results may reflect phenotypic plasticity or genetic differentiation in ecophysiological traits between light environments. It is suggested that the dominant climbers in this temperate rainforest would be able to cope with forest clearings due to human activities.

[1]  Ü. Niinemets,et al.  Shade Tolerance, a Key Plant Feature of Complex Nature and Consequences , 2008 .

[2]  C. Lusk,et al.  Ecophysiological responses to light availability in three Blechnum species (Pteridophyta, Blechnaceae) of different ecological breadth , 2005, Oecologia.

[3]  F. Bongers,et al.  Seedling growth strategies in Bauhinia species: comparing lianas and trees. , 2007, Annals of botany.

[4]  F. Putz The natural history of lianas on Barro Colorado Island, Panama , 1984 .

[5]  Y. Malhi,et al.  Spatial patterns and recent trends in the climate of tropical rainforest regions. , 2004, Philosophical transactions of the Royal Society of London. Series B, Biological sciences.

[6]  Lourens Poorter,et al.  Growth responses of 15 rain‐forest tree species to a light gradient: the relative importance of morphological and physiological traits , 1999 .

[7]  F. Valladares,et al.  Climbing plants in a temperate rainforest understorey: searching for high light or coping with deep shade? , 2011, Annals of botany.

[8]  O. Phillips,et al.  Infestation of trees by lianas in a tropical forest in Amazonian Peru , 2008 .

[9]  S. Schnitzer A Mechanistic Explanation for Global Patterns of Liana Abundance and Distribution , 2005, The American Naturalist.

[10]  O. Phillips,et al.  What controls liana success in Neotropical forests , 2008 .

[11]  Robert W. Pearcy,et al.  Plastic Phenotypic Response to Light of 16 Congeneric Shrubs From a Panamanian Rainforest , 2000 .

[12]  R. Chazdon,et al.  A bounded null model explains juvenile tree community structure along light availability gradients in a temperate rain forest , 2006 .

[13]  A. Teramura,et al.  The Biology of Vines : Physiological ecology of mesic, temperate woody vines , 1992 .

[14]  J. Armesto,et al.  Diversity and host tree preferences of vascular epiphytes and vines in a temperate rainforest in southern Chile , 2003 .

[15]  Yadvinder Malhi,et al.  Increasing dominance of large lianas in Amazonian forests , 2002, Nature.

[16]  Thomas J. Givnish,et al.  Adaptation to Sun and Shade: a Whole-Plant Perspective , 1988 .

[17]  Harold A. Mooney,et al.  Biology of vines , 1989 .

[18]  Michael A Babyak,et al.  What You See May Not Be What You Get: A Brief, Nontechnical Introduction to Overfitting in Regression-Type Models , 2004, Psychosomatic medicine.

[19]  A. Gentry The Biology of Vines : The distribution and evolution of climbing plants , 1992 .

[20]  H.,et al.  1 The distribution and evolution of climbing plants , 2012 .

[21]  J. Grace,et al.  Lianas may be favoured by low rainfall: evidence from Ghana , 2007, Plant Ecology.

[22]  F. Valladares,et al.  Distribution and abundance of vines along the light gradient in a southern temperate rain forest , 2010 .

[23]  F. Valladares,et al.  Global change and the evolution of phenotypic plasticity in plants , 2010, Annals of the New York Academy of Sciences.

[24]  A. Teramura,et al.  Vine photosynthesis and relationships to climbing mechanics in a forest understory. , 1988 .

[25]  Frans Bongers,et al.  The ecology of lianas and their role in forests , 2002 .

[26]  S. Paton,et al.  ARE LIANAS INCREASING IN IMPORTANCE IN TROPICAL FORESTS? A 17‐YEAR RECORD FROM PANAMA , 2004 .

[27]  James R. Ehleringer,et al.  Ecophysiological traits of plant functional groups in forest and pasture ecosystems from eastern Amazônia, Brazil , 2007, Plant Ecology.

[28]  C. Lusk Leaf area accumulation helps juvenile evergreen trees tolerate shade in a temperate rainforest , 2002, Oecologia.

[29]  E. Gianoli,et al.  Abundance of climbing plants in a southern temperate rain forest: host tree characteristics or light availability? , 2009 .

[30]  S. Schnitzer,et al.  The distribution of lianas and their change in abundance in temperate forests over the past 45 years. , 2006, Ecology.

[31]  Influencia de las especies del dosel en la disponibilidad de recursos y regeneración avanzada en un bosque templado lluvioso del sur de Chile , 2003 .

[32]  E. Gianoli Evolution of a climbing habit promotes diversification in flowering plants , 2004, Proceedings of the Royal Society of London. Series B: Biological Sciences.

[33]  A. Ellison,et al.  Treefall gap size effects on above‐ and below‐ground processes in a tropical wet forest , 1998 .

[34]  H. Muller‐Landau,et al.  Life history trade-offs in tropical trees and lianas. , 2006, Ecology.

[35]  R. Sharitz,et al.  Are lianas increasing in importance in temperate floodplain forests in the southeastern United States , 2007 .

[36]  T. Speck,et al.  Plant growth forms: an ecological and evolutionary perspective. , 2005, The New phytologist.