BACKGROUND AND AIMS: In tropical lowland rain forest (TLRF) the leaves of most monocots differ from those of most dicots in two ways that may reduce attack by herbivores. Firstly, they are tougher. Secondly, the immature leaves are tightly folded or rolled until 50-100 % of their final length. It was hypothesized that (a) losses of leaf area to herbivorous invertebrates are generally greatest during leaf expansion and smaller for monocots than for dicots, and (b) where losses after expansion are appreciable any difference between monocots and dicots then is smaller than that found during expansion. METHODS: At six sites on four continents, estimates were made of lamina area loss from the four most recently mature leaves of focal monocots and of the nearest dicot shoot. Measurements of leaf mass per unit area, and the concentrations of water and nitrogen were made for many of the species. In Panama, the losses from monocots (palms) and dicots were also measured after placing fully expanded palm leaflets and whole dicot leaves on trails of leaf-cutter ants. KEY RESULTS: At five of six sites monocots experienced significantly smaller leaf area loss than dicots. The results were not explicable in terms of leaf mass per unit area, or concentrations of water or nitrogen. At only one site was the increase in loss from first to fourth mature leaf significant (also large and the same in monocots and dicots), but the losses sustained during expansion were much smaller in the monocots. In the leaf-cutter ant experiment, losses were much smaller for palms than for dicots. CONCLUSIONS: The relationship between toughness and herbivory is complex; despite the negative findings of some recent authors for dicots we hypothesize that either greater toughness or late folding can protect monocot leaves against herbivorous insects in tropical lowland rain forest, and that the relative importance varies widely with species. The difficulties of establishing unequivocally the roles of leaf toughness and leaf folding or rolling in a given case are discussed.
BACKGROUND AND AIMS: In tropical lowland rain forest (TLRF) the leaves of most monocots differ from those of most dicots in two ways that may reduce attack by herbivores. Firstly, they are tougher. Secondly, the immature leaves are tightly folded or rolled until 50-100 % of their final length. It was hypothesized that (a) losses of leaf area to herbivorous invertebrates are generally greatest during leaf expansion and smaller for monocots than for dicots, and (b) where losses after expansion are appreciable any difference between monocots and dicots then is smaller than that found during expansion. METHODS: At six sites on four continents, estimates were made of lamina area loss from the four most recently mature leaves of focal monocots and of the nearest dicot shoot. Measurements of leaf mass per unit area, and the concentrations of water and nitrogen were made for many of the species. In Panama, the losses from monocots (palms) and dicots were also measured after placing fully expanded palm leaflets and whole dicot leaves on trails of leaf-cutter ants. KEY RESULTS: At five of six sites monocots experienced significantly smaller leaf area loss than dicots. The results were not explicable in terms of leaf mass per unit area, or concentrations of water or nitrogen. At only one site was the increase in loss from first to fourth mature leaf significant (also large and the same in monocots and dicots), but the losses sustained during expansion were much smaller in the monocots. In the leaf-cutter ant experiment, losses were much smaller for palms than for dicots. CONCLUSIONS: The relationship between toughness and herbivory is complex; despite the negative findings of some recent authors for dicots we hypothesize that either greater toughness or late folding can protect monocot leaves against herbivorous insects in tropical lowland rain forest, and that the relative importance varies widely with species. The difficulties of establishing unequivocally the roles of leaf toughness and leaf folding or rolling in a given case are discussed.
Authors: Nathaniel J Dominy; Peter J Grubb; Robyn V Jackson; Peter W Lucas; Daniel J Metcalfe; Jens-Christian Svenning; Ian M Turner Journal: Ann Bot Date: 2008-04-03 Impact factor: 4.357
Authors: Nathaniel J Dominy; Peter J Grubb; Robyn V Jackson; Peter W Lucas; Daniel J Metcalfe; Jens-Christian Svenning; Ian M Turner Journal: Ann Bot Date: 2008-04-03 Impact factor: 4.357
Authors: Patricia Álvarez-Loayza; James F White; Mónica S Torres; Henrik Balslev; Thea Kristiansen; Jens-Christian Svenning; Nathalie Gil Journal: PLoS One Date: 2011-01-31 Impact factor: 3.240
Authors: Ren-Yi Ma; Jiao-Lin Zhang; Molly A Cavaleri; Frank Sterck; Joeri S Strijk; Kun-Fang Cao Journal: PLoS One Date: 2015-10-13 Impact factor: 3.240
Authors: Daniel Falster; Rachael Gallagher; Elizabeth H Wenk; Ian J Wright; Dony Indiarto; Samuel C Andrew; Caitlan Baxter; James Lawson; Stuart Allen; Anne Fuchs; Anna Monro; Fonti Kar; Mark A Adams; Collin W Ahrens; Matthew Alfonzetti; Tara Angevin; Deborah M G Apgaua; Stefan Arndt; Owen K Atkin; Joe Atkinson; Tony Auld; Andrew Baker; Maria von Balthazar; Anthony Bean; Chris J Blackman; Keith Bloomfield; David M J S Bowman; Jason Bragg; Timothy J Brodribb; Genevieve Buckton; Geoff Burrows; Elizabeth Caldwell; James Camac; Raymond Carpenter; Jane A Catford; Gregory R Cawthray; Lucas A Cernusak; Gregory Chandler; Alex R Chapman; David Cheal; Alexander W Cheesman; Si-Chong Chen; Brendan Choat; Brook Clinton; Peta L Clode; Helen Coleman; William K Cornwell; Meredith Cosgrove; Michael Crisp; Erika Cross; Kristine Y Crous; Saul Cunningham; Timothy Curran; Ellen Curtis; Matthew I Daws; Jane L DeGabriel; Matthew D Denton; Ning Dong; Pengzhen Du; Honglang Duan; David H Duncan; Richard P Duncan; Marco Duretto; John M Dwyer; Cheryl Edwards; Manuel Esperon-Rodriguez; John R Evans; Susan E Everingham; Claire Farrell; Jennifer Firn; Carlos Roberto Fonseca; Ben J French; Doug Frood; Jennifer L Funk; Sonya R Geange; Oula Ghannoum; Sean M Gleason; Carl R Gosper; Emma Gray; Philip K Groom; Saskia Grootemaat; Caroline Gross; Greg Guerin; Lydia Guja; Amy K Hahs; Matthew Tom Harrison; Patrick E Hayes; Martin Henery; Dieter Hochuli; Jocelyn Howell; Guomin Huang; Lesley Hughes; John Huisman; Jugoslav Ilic; Ashika Jagdish; Daniel Jin; Gregory Jordan; Enrique Jurado; John Kanowski; Sabine Kasel; Jürgen Kellermann; Belinda Kenny; Michele Kohout; Robert M Kooyman; Martyna M Kotowska; Hao Ran Lai; Etienne Laliberté; Hans Lambers; Byron B Lamont; Robert Lanfear; Frank van Langevelde; Daniel C Laughlin; Bree-Anne Laugier-Kitchener; Susan Laurance; Caroline E R Lehmann; Andrea Leigh; Michelle R Leishman; Tanja Lenz; Brendan Lepschi; James D Lewis; Felix Lim; Udayangani Liu; Janice Lord; Christopher H Lusk; Cate Macinnis-Ng; Hannah McPherson; Susana Magallón; Anthony Manea; Andrea López-Martinez; Margaret Mayfield; James K McCarthy; Trevor Meers; Marlien van der Merwe; Daniel J Metcalfe; Per Milberg; Karel Mokany; Angela T Moles; Ben D Moore; Nicholas Moore; John W Morgan; William Morris; Annette Muir; Samantha Munroe; Áine Nicholson; Dean Nicolle; Adrienne B Nicotra; Ülo Niinemets; Tom North; Andrew O'Reilly-Nugent; Odhran S O'Sullivan; Brad Oberle; Yusuke Onoda; Mark K J Ooi; Colin P Osborne; Grazyna Paczkowska; Burak Pekin; Caio Guilherme Pereira; Catherine Pickering; Melinda Pickup; Laura J Pollock; Pieter Poot; Jeff R Powell; Sally A Power; Iain Colin Prentice; Lynda Prior; Suzanne M Prober; Jennifer Read; Victoria Reynolds; Anna E Richards; Ben Richardson; Michael L Roderick; Julieta A Rosell; Maurizio Rossetto; Barbara Rye; Paul D Rymer; Michael A Sams; Gordon Sanson; Hervé Sauquet; Susanne Schmidt; Jürg Schönenberger; Ernst-Detlef Schulze; Kerrie Sendall; Steve Sinclair; Benjamin Smith; Renee Smith; Fiona Soper; Ben Sparrow; Rachel J Standish; Timothy L Staples; Ruby Stephens; Christopher Szota; Guy Taseski; Elizabeth Tasker; Freya Thomas; David T Tissue; Mark G Tjoelker; David Yue Phin Tng; Félix de Tombeur; Kyle Tomlinson; Neil C Turner; Erik J Veneklaas; Susanna Venn; Peter Vesk; Carolyn Vlasveld; Maria S Vorontsova; Charles A Warren; Nigel Warwick; Lasantha K Weerasinghe; Jessie Wells; Mark Westoby; Matthew White; Nicholas S G Williams; Jarrah Wills; Peter G Wilson; Colin Yates; Amy E Zanne; Graham Zemunik; Kasia Ziemińska Journal: Sci Data Date: 2021-09-30 Impact factor: 6.444