ABSTRACT
Resumen La vegetación ribereña constituye un elemento clave para el mantenimiento de los ecosistemas fluviales, en especial, en aquellos que se encuentran circundados por zonas urbanas. El objetivo del presente trabajo fue evaluar la variación espacial de la riqueza, la composición y la estructura de la vegetación ribereña en un tramo del río Santa Catarina sobre dos municipios de la Zona Metropolitana de Monterrey. Para el análisis de la vegetación, se establecieron transectos de muestreo, en un tramo de 15.65 km. El estrato alto (plantas arbustivas y arbóreas), se analizó mediante un modelo de ordenación Bray-Curtis y una gráfica de dominancia-diversidad. Para el estrato bajo (plantas herbáceas), se utilizó el coeficiente de similitud de Jaccard. En el estrato alto, se registraron 16 familias pertenecientes a 25 géneros y 28 especies. Las especies con mayor número de individuos fueron Salix nigra, Leucaena leucocephala, Ricinus communis y Parkinsonia aculeata. La composición de la vegetación tiene una similitud de intermedia a alta, ya que los grupos variaron con valores de 60 % a 71.53 %. En el estrato bajo, se registraron 25 familias, 53 géneros y 60 especies, con una similitud de baja a intermedia, debido a que los primeros tres grupos variaron entre 23 % a 47 %. Las especies que se reportaron con mayor distribución en el estrato bajo, fueron Cyperus involucratus y Phragmites australis en 7 sitios cada una, Eragrostis mexicana, Heliantus annuus, Melinis repens, Polygonum pensylvanicum y Typha domingensis, en 6 sitios cada una. La composición de la vegetación se encuentra en un estado sucesional secundario, debido a que las especies con mayor presencia son introducidas, como Leucaena leucocephala y Ricinus communis para el estrato alto, y Cypereus involucratus y Melinis repens, para el estrato bajo.
Abstract Riparian vegetation constitutes a key element for the maintenance of fluvial ecosystems, especially for those that are surrounded by urban zones. The aim of this study was to evaluate the composition and variation of riparian vegetation in a stretch of the Santa Catarina river, over two cities of the Monterrey Metropolitan Area. For the analysis of the vegetation, sampling transects were established in a section of 15.65 km. The high stratum (shrub and tree plants) was analyzed using a Bray-Curtis ordering model and a dominance-diversity plot. The Jaccard similarity coefficient was used for the low stratum (herbaceous plants). In the high stratum, 16 families belonging to 25 genera and 28 species were recorded. The species with the highest number of individuals were Salix nigra, Leucaena leucocephala , Ricinus communis and Parkinsonia aculeata. The composition of the vegetation has a similarity level of intermediate to high, because the groups vary between 60 % to 71.53 %. In thelow stratum, 25 families, 53 genera and 60 species were recorded with a similarity level of low to intermediate, because the groups vary between 23 to 47 %. The species that were mostly registered in the low stratum were Cyperus involucratus in 7 sites, and Eragrostis mexicana , Heliantus annuus, Melinis repens, Polygonum pensylvanicum and Typha domingensis in six sites each one. The composition of the vegetation is in a secondary successional state, because the species with greater presence are exotic or invasive, such as Leucaena leucocephala and Ricinus communis for the high stratum and Cyperus involucratus, Typha domingensis and Melinis repens for the low stratum.
ABSTRACT
Globally, offset schemes have emerged in many statutory frameworks relating to development activities, with the aim of balancing biodiversity conservation and development. Although the theory and use of biodiversity offsets in terrestrial environments is broadly documented, little attention has been paid to offsets in stream ecosystems. Here we examine the application of offset schemes to stream ecosystems and explore whether they suffer similar shortcomings to those of offset schemes focused on terrestrial biodiversity. To challenge the applicability of offsets further, we discuss typical trajectories of urban expansion and their cascading physical, chemical and biological impacts on stream ecosystems. We argue that the highly connected nature of stream ecosystems and urban drainage networks can transfer impacts of urbanization across wide areas, complicating the notion of like-for-like exchange and the prospect of effectively mitigating biodiversity loss. Instead, we identify in-catchment options for stormwater control, which can avoid or minimize the impacts of development on downstream ecosystems, while presenting additional public and private benefits. We describe the underlying principles of these alternatives, some of the challenges associated with their uptake, and policy initiatives being trialed to facilitate adoption. In conclusion, we argue that stronger policies to avoid and minimize the impacts of urbanization provide better prospects for protecting downstream ecosystems, and can additionally, stimulate economic opportunities and improve urban liveability.
