Angélica Romero-Manzanares scite author profile

Agaves can grow in marginal arid and semiarid lands where their special ecological and physiological adaptations to environmental conditions give them the potential to produce substantial biomass. Agave americana was the first agave species shown to be a Crassulacean Acid Metabolism plant, with CO 2 uptake occurring primarily at night and with high wateruse efficiency (photosynthesis/transpiration). A. salmiana and A. mapisaga can have high nocturnal net CO 2 uptake rates and high productivities averaging 40 tonnes dry weight ha À1 yr À1. Agaves can benefit from the increases in temperature and atmospheric CO 2 levels accompanying global climate change. An Environmental Productivity Index can predict the effects of soil and environmental factors on CO 2 uptake and hence on the regions appropriate for cultivating agaves. In turn, their increased cultivation can support the production of innovative earth-friendly commodities that can be used as new bioenergy feedstocks.

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Patterns of Knowledge and Use of Medicinal Plants in Santiago Camotlán, Oaxaca, Mexico

Pérez-Nicolás

Vibrans

Romero-Manzanares

et al. 2017

Econ Bot

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Chemical characterization and fuel properties of wood and bark of two oaks from Oaxaca, Mexico

Ruíz-Aquino

González-Peña

Valdéz-Hernández

et al. 2015

Industrial Crops and Products

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<i>Prosopis laevigata</i> and <i>Mimosa biuncifera</i> (Leguminosae), jointly influence plant diversity and soil fertility of a Mexican semiarid ecosystem.

García-Sánchez

Camargo‐Ricalde

García‐Moya

et al. 2012

RBT

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Abstract:Prosopis laevigata and Mimosa biuncifera are frequently found in arid and semiarid shrublands, but scarce information is available about their influence on plant community structure and soil fertility. We compared plant community structure, diversity and soil nutrients of three semiarid shrubland sites located in Mezquital Valley, Mexico. These sites differ in their dominant species: Site 1 (Bingu) P. laevigata, Site 2 (González) M. biuncifera, and Site 3 (Rincón) with the presence of both legumes. The results showed that the plant community with P. laevigata and M. biuncifera (Site 3) had more cover, taller plants and higher plant diversity than sites with only one legume (Site 1 and Site 2). Soil organic matter (SOM), soil organic carbon (SOC), total nitrogen (TN), phosphorus-Olsen (P) and C mineralization were higher in the soil under the canopy of both legumes than in bare soil. In contrast, soil cation concentrations were lower under the canopy of P. laevigata, but not for M. biuncifera. In addition, the density of arbuscular mycorrhizal fungi spores was higher within the soil under the canopy of M. biuncifera than in the soil under the canopy of P. laevigata. Thus, resource islands (RI) created by P. laevigata increased the amounts of SOC, TN and P when compared with the RI of M. biuncifera. This study provided evidences about the importance of species identity in order to expand the niche availability for the establishment of other plants, and highlights that P. laevigata and M. biuncifera jointly influencing plant colonization within semiarid ecosystems. Rev. Biol. Trop. 60 (1): 87-103. Epub 2012 March 01.

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Estructura y diversidad arbórea de bosques tropicales caducifolios secundarios en la Reserva de la Biosfera Sierra de Huautla, Morelos

et al. 2018

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The recovery in richness, composition, structure and tree diversity was studied in three conditions of secondary tropical deciduous forest with different time of abandonment (C35, C45 and C65 years) in the southeast of the state of Morelos. In each condition, three plots of 50 × 50 m (2,500 m 2) were established and all individuals ≥ 2.5 cm of normal diameter (ND) were measured. In total, 2,791 individuals belonging to 79 species, 53 genera and 30 families were registered. Fabaceae was the family with the largest number of species and individuals. C45 had the highest species richness (57), followed by C35 (48) and C65 (43). The conditions were different (p < 0.0001) in basal area, total height, ND and crown coverage. The species with the highest relative value of importance (IVIR) and forest value (IVFR) were

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