2020
DOI: 10.1111/btp.12837
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The weight of the crust: Biomass of crustose lichens in tropical dry forest represents more than half of foliar biomass

Abstract: Lichen contributions to ecosystem functionality are vast and especially important when lichens are abundant, for example, in temperate forests where their biomass can reach 1-4.4 Mg/ha (Berryman & McCune, 2006; Boucher & Stone, 1992; McCune, 1993). As pioneer organisms and primary producers, lichens support an extensive network of microorganisms, invertebrates, and vertebrates by providing habitat, water, and nutrients (Gerson & Seaward, 1977; Ward & Marcum, 2005). Lichens reincorporate nutrients from plant ex… Show more

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Cited by 12 publications
(7 citation statements)
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“…These groups are less showy than the larger bodied macrolichens, and have often been overlooked in studies of ecosystem roles of epiphytes due to their small size. However, some studies of crustose lichen communities have found that they can represent comparable biomass to macrolichens (Miranda-González and McCune, 2020). Although the total estimated biomass of crustose lichens at our sites was far less than reported for tropical dry forests by Miranda-González and McCune (2020), it is nonetheless indicative of an under-valued component of canopy communities.…”
Section: Discussioncontrasting
confidence: 64%
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“…These groups are less showy than the larger bodied macrolichens, and have often been overlooked in studies of ecosystem roles of epiphytes due to their small size. However, some studies of crustose lichen communities have found that they can represent comparable biomass to macrolichens (Miranda-González and McCune, 2020). Although the total estimated biomass of crustose lichens at our sites was far less than reported for tropical dry forests by Miranda-González and McCune (2020), it is nonetheless indicative of an under-valued component of canopy communities.…”
Section: Discussioncontrasting
confidence: 64%
“…In such ecosystems, the dominant epiphytes may be small bryophytes (e.g., Frullania, Orthotrichum, and Pylaisia), microfoliose lichens (e.g., Physcia, Physconia, and associated genera), and crustose lichens. These taxa have drawn less attention from hydrologists due to their small size and therefore individually limited water-holding capacity, such that their impact is poorly quantified but a recent study of crustose lichens in dry forests found comparable biomasses to larger-bodied lichens (Miranda-González and McCune, 2020).…”
Section: Introductionmentioning
confidence: 99%
“…Lichen symbioses are found in nearly all terrestrial ecosystems on earth, from tropical rainforests to polar environments. In many regions they contribute a considerable proportion of the overall biomass (Miranda‐González & McCune, 2020) and can sustain herds of grazing mammals such as caribou ( Rangifer tarandus ). Most individual lichen symbioses are specialists for specific environmental conditions and have gained widespread use as biological indicators (Nimis et al ., 2002).…”
Section: Diversity and Ecology Of Lichen Symbiosesmentioning
confidence: 99%
“…This is a critical gap because these low‐latitude ecosystems are of global ecological and biogeochemical importance and the lichens in the tropics can differ greatly phylogenetically and physiologically from the best‐studied temperate taxa (Lange et al, 2000; Rivas Plata, Lücking and Lumbsch, 2008; Pardow et al, 2010; Dal‐Forno et al, 2013). Even the common assertion that lichens are most ecologically important at high latitudes is questionable, with Miranda‐González, McCune (2020) estimating that the biomass of lichens in a Mexican tropical dry forest is equivalent to ~50% of leaf mass. In this review, we aim to highlight gaps in understanding arising from these historical biases, as well as recent work, which leads toward a more universal comprehension of lichen ecophysiology.…”
Section: Setting the Scenementioning
confidence: 99%