Biodiversity faces many threats and these can interact to produce outcomes that may not be predicted by considering their effects in isolation. Habitat loss and fragmentation (hereafter 'fragmentation') and altered fire regimes are important threats to biodiversity, but their interactions have not been systematically evaluated across the globe. In this comprehensive synthesis, including 162 papers which provided 274 cases, we offer a framework for understanding how fire interacts with fragmentation. Fire and fragmentation interact in three main ways: (i) fire influences fragmentation (59% of 274 cases), where fire either destroys and fragments habitat or creates and connects habitat; (ii) fragmentation influences fire (25% of cases) where, after habitat is reduced in area and fragmented, fire in the landscape is subsequently altered because people suppress or ignite fires, or there is increased edge flammability or increased obstruction to fire spread; and (iii) where the two do not influence each other, but fire interacts with fragmentation to affect responses like species richness, abundance and extinction risk (16% of cases). Where fire and fragmentation do influence each other, feedback loops are possible that can lead to ecosystem conversion (e.g. forest to grassland). This is a well-documented threat in the tropics but with potential also to be important elsewhere. Fire interacts with fragmentation through scale-specific mechanisms: fire creates edges and drives edge effects; fire alters patch quality; and fire alters landscape-scale connectivity. We found only 12 cases in which studies reported the four essential strata for testing a full interaction, which were fragmented and unfragmented landscapes that both span contrasting fire histories, such as recently burnt and long unburnt vegetation. Simulation and empirical studies show that fire and fragmentation can interact synergistically, multiplicatively, antagonistically or additively. These cases highlight a key reason why understanding interactions is so important: when fire and fragmentation act together they can cause
Los ecosistemas tropicales albergan una gran parte de la biodiversidad mundial y a pesar de ello están siendo transformados por el cambio de uso de la tierra a un ritmo sin precedentes. La conversión de la cobertura de la tierra y el mantenimiento de pastos y áreas para cultivos en Latino América están altamente relacionados con el uso del fuego. El origen de los incendios y sus causas son numerosos y en la región es clara su asociación de forma directa o indirecta con actividades humanas. Suramérica está siendo cada vez más afectada por los incendios y desde el 2001 en todos los años se ha detectado actividad asociada al fuego. Los impactos de los incendios sobre los ecosistemas naturales son múltiples y varían en magnitud, pero se ha avanzado poco en su conocimiento. Este artículo presenta una recopilación del conocimiento que se tiene en ecología del fuego tropical en los tres países andinos del norte de Suramérica, mostrando los avances en los patrones espaciales y temporales de los incendios, los efectos sobre los ecosistemas y las dinámicas post incendio. Se evidencian grandes vacíos del conocimiento en la ecología del fuego de gran parte de los ecosistemas de esta región.
Fire plays a dominant role in deforestation, particularly in the tropics, but the relative extent of transformations and influence of fire frequency on eventual forest loss remain unclear. Here, we analyze the frequency of fire and its influence on postfire forest trajectories between 2001 and 2018. We account for ~1.1% of Latin American forests burnt in 2002–2003 (8,465,850 ha). Although 40.1% of forests (3,393,250 ha) burned only once, by 2018, ~48% of the evergreen forests converted to other, primarily grass-dominated uses. While greater fire frequency yielded more transformation, our results reveal the staggering impact of even a single fire. Increasing fire frequency imposes greater risks of irreversible forest loss, transforming forests into ecosystems increasingly vulnerable to degradation. Reversing this trend is indispensable to both mitigate and adapt to climate change globally. As climate change transforms fire regimes across the region, key actions are needed to conserve Latin American forests.
This is an open access article under the terms of the Creat ive Commo ns Attri bution License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited.
El seguimiento al uso del suelo y el conocimiento del estado de la vegetación en remanentes de bosques de paisajes representan una metodología fundamental para la planificación del territorio ante la acelerada fragmentación. Por ello, se realizó un análisis multitemporal de la composición y configuración del paisaje (1990-2016) y se establecieron transectos de muestreo de la vegetación. Se identificó una pérdida del 56.34% de áreas de bosque, aumento en el número de parches, reducción de su área y ampliación de la distancia entre relictos, lo que evidencia procesos activos de fragmentación. En los bosques muestreados se registró la dominancia de especies heliófitas generalistas de ecosistemas perturbados y se encontró una reducción en la complejidad estructural asociada a una baja densidad de individuos (DAP≥ 10 cm) en el estrato superior arbóreo, mostrando que la fragmentación del paisaje ha conllevado a la degradación de estos bosques.
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