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The karst carbon sink caused by rock outcrops results in enrichment of the bicarbonate in soil, affecting the physiological process of plants in an all-round way. Water is the basis of plant growth and metabolic activities. In heterogeneous rock outcrop habitats, the impact of bicarbonate enrichment on the intracellular water metabolism of plant leaf is still unclear, which needs to be revealed. In this paper, the Lonicera japonica and Parthenocissus quinquefolia plants were selected as experimental materials, and electrophysiological indices were used to study their water holding, transfer and use efficiency under three simulated rock outcrop habitats, i.e., rock/soil ratio as 1, 1/4 and 0. By synchronously determining and analyzing the leaf water content, photosynthetic and chlorophyll fluorescence parameters, the response characteristics of water metabolism within leaf cells to the heterogeneous rock outcrop habitats were revealed. The results showed that the soil bicarbonate content in rock outcrop habitats increased with increasing rock/soil ratio. Under the treatment of a higher concentration of bicarbonate, the leaf intra- and intercellular water acquisition and transfer efficiency as well as the photosynthetic utilization capacity of P. quinquefolia decreased, the leaf water content was lower, and those plants had low bicarbonate utilization efficiency, which greatly weakened their drought resistance. However, the Lonicera japonica had a high bicarbonate use capacity when facing the enrichment of bicarbonate within cells, the above-mentioned capacity could significantly improve the water status of the leaves, and the water content and intracellular water-holding capacity of plant leaves in large rock outcrop habitats were significantly better than in non-rock outcrop habitats. In addition, the higher intracellular water-holding capacity was likely to maintain the stability of the intra- and intercellular water environment, thus ensuring the full development of its photosynthetic metabolic capacity, and the stable intracellular water-use efficiency also made itself more vigorous under karstic drought. Taken together, the results suggested that the water metabolic traits of Lonicera japonica made it more adaptable to karst environments.

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Extensive, progressive rock emergence causes localized variations in soil biogeochemical and microbial properties that may influence the capacity for the regeneration of degraded karst ecosystems. It is likely that karst ecosystem recovery relies on the persistence of soil functions at the microbial scale, and we aimed to explored the role of interactions between soil bacterial taxa and identify keystone species that deliver key biogeochemical functions, i.e. carbon (C) and nutrient (nitrogen, N and phosphorus, P) cycling. We applied high-throughput sequencing and phylogenetic molecular ecological network approaches to topsoils sampled at rock-soil interfaces and adjacent bulk soil along an established gradient of land-use intensity in the Chinese Karst Critical Zone Observatory. Bacterial α-diversity was greater under increased perturbation and at the rock-soil interface compared to bulk soils under intensive cultivation. However, bacterial ecological networks were less intricate and connected fewer keystone taxa as human disturbance increased and at the rock-soil interface. Co-occurrence within the bacterial community in natural primary forest soils was 13% larger than cultivated soils. The relative abundances of keystone taxa Acidobacteria, Bacteroidetes and Chloroflexi increased with land-use intensity, while Proteobacteria, Actinobacteria and Verrucomicrobia decreased by up to 6%. In general, Bacteroidetes, Verrucomicrobia and Chlorobi were related to C-cycling, Proteobacteria, Actinobacteria and Chloroflexi were related to N-cycling, and Actinobacteria and Nitrospirae were related to both N- and P-cycling. Proteobacteria and Chlorobi affected C-cycling and multiple functionality indexes in the abandoned land. We conclude that increasing land-use intensity changed the soil bacterial community structure and decreased bacterial interactions. However, increases in α-diversity at the rock-soil interface in cultivated soils indicated that major soil functions related to biogeochemical cycling were maintained within keystone taxa in this microenvironment. Our study provides foundations to test the success of different regeneration practices in restoring soil microbial diversity and the multifunctionality of karst ecosystems.

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Aunque los campos rupestres son afloramientos rocosos icónicos con un alto valor biogeográfico en las tierras altas de Brasil, se sabe poco sobre los modeladores responsables de los patrones de comunidades vegetales. Estudiamos la diversidad y las formas de vida de los componentes leñosos y herbáceos que se encuentran a lo largo de diferentes fitofísionomías de los complejos rocosos de cuarcita en las tierras altas del Quadrilátero Ferrífero brasileño, Estado de Minas Gerais, Brasil. Se realizaron un total de 130 parcelas en tres fitofisionomías a lo largo del gradiente pedogeomorfológico: i) campo rupestre herbáceo; ii) estratos superior e inferior del bosque montano (capão florestal) y iii) matorral. En general, se muestrearon 4 446 individuos, distribuidos en 218 especies, especialmente de familias: Asteraceae y Myrtaceae en la comunidad de leñosas; y Poaceae y Cyperaceae, en la comunidad herbácea. La diversidad de especies, las formas de vida y la abundancia mostraron marcadas diferencias entre las fitofisionomías. La forma de vida más frecuente fue la fanerófita (bosque de montaña y matorral), seguida de hemicriptófita (campo rupestre herbáceo). Nuestro estudio revela diferencias marcadas de la composición florística, la riqueza y el espectro de las formas de vida entre fitofisionomías en los complejos rocosos a escala local. Tales diferencias probablemente indican que existe una alta heterogeneidad ambiental en pequeñas escalas espaciales.

Although campos rupestres are iconic rock outcrops with a high biogeographic value in Brazilian highlands, little is known about the drivers responsible for the plant community pattern. We studied the diversity and life forms of the woody and herbaceous components occurring along different phytophysiognomies of the quartzite rocky complexes in highlands of the Quadrangle, Minas Gerais State, Brazil. A total of 130 plots were allocated in three phytophysiognomies along the pedogeomorphological gradient: i) herbaceous campo rupestre; ii) upper and lower strata of montane forest (capão florestal) and iii) scrub. Overall, 4 446 individuals were sampled, distributed among 218 species, especially from families: Asteraceae, in general; Myrtaceae, in the woody community; and Poaceae and Cyperaceae, in the herbaceous community. Species diversity, life forms, and abundance showed differences between phytophysiognomies. The most frequent life form was phanerophyte (montane forest and scrub), followed by hemicryptophyte (herbaceous campo rupestre). Our study reveals marked differences in the floristic composition, species richness, and life form spectrum among phytophysiognomies on a local scale. Such differences probably indicate that there is a high environmental heterogeneity at a small spatial scale.

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Although lack of soil coverage, rock outcrops with developed fractures in karst region can maintain water consumption of plants with different life forms. Water sources for plants on these habi-tats are unclear. Isolated rocky outcrop with relatively simple sources of water was selected for this study. We focused on typical plant species that still thrived after excluding rainfall (removing the water supply to the shallow water) over one year, compared with the same plant species living without rain shelter (always receiving rainfall supplies). Water sources of three representative tree species (Radermachera sinica, Celtis biondii, and Pittosporum tonkinense) were analyzed by using stable isotope techniques and combining with the measurement of plant water potential. The results showed that all the three species depended on deep water sources with similar isotopic values to spring water under rain-sheltered condition, during the rainy season, which explained why plants could still grow normally after rainfall-exclusion over one year. The predawn water potential of R. sinica and P. tonkinense under rain-sheltered condition was not significantly different from those living in natural conditions, which indicated both species were not under water stress. The predawn water potential of C. biondii under rain-sheltered condition was significantly lower than individuals living in natural conditions, which indicated it was under water stress. Under natural condition, water isotope values of stems of all the three species were significantly lower than that under rain-sheltered condition and were within the range of fluctuation of recent rainwater isotope values, indicating that these plants relied on shallow water sources that dominated by recent rainfall. Under both rain-sheltered and natural conditions, there was no obvious difference between the predawn water potential and the midday water potential of P. tonkinense, showing a conservative water use strategy. The midday water potential of other two species was significantly lower than the predawn water potential, showing a profligate/opportunistic water use strategy. Our results indicated that the ability to utilize shallow and deep water sources is key for the plants growing on the habitat of Karst rock outcrops where they could adapt different water environments and maintain diversified water use strategies under the condition with no soil coverage.

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Abstract Located in the municipalities of Ouro Preto and Mariana, in the Quadrilátero Ferrífero (QF) of Minas Gerais, the Itacolomi State Park (ISP) shelters more than 7,000 ha of remnants of Atlantic Forest and campos rupestres. The QF region has high biodiversity and is being highly impacted, mainly by mining activities. Aiming to organize the available floristic information and to support related research, this study presents the list of phanerogamic species of the ISP and the major vegetation types. This survey was carried out from October/1992 to July/2006, by monthly field trips. Besides authors´ personal collections, other records were assembled from herbarium databank. A total of 1623 taxons belonging to 122 families were listed. The families with higher species richness were Asteraceae, Fabaceae, Melastomataceae, Poaceae and Orchidaceae. The vegetation is represented by campos rupestres (51% of the total area), followed by montane forests (40%) and anthropogenic disturbed areas (9%). The greatest species richness occurs in campos rupestres. Several species are threatened and/or endemic. The knowledge of phanerogamic flora of ISP can help the Management Plan of this Unit of Conservation. It is also a contribution for future-related studies of the flora of ISP, Minas Gerais and Brazil.

Resumo O Parque Estadual do Itacolomi (PEIT) localiza-se nos municípios de Ouro Preto e Mariana, no Quadrilátero Ferrífero de Minas Gerais e abriga mais de 7.000 ha de remanescentes de mata atlântica e campos rupestres. A região do QF possui alta biodiversidade vegetal e está sobre alto impacto, principalmente pela mineração. O objetivo deste estudo foi apresentar a lista das espécies fanerogâmicas e os principais tipos vegetacionais desse Parque, no intuito de organizar a diversidade florística existente, além de servir como suporte para pesquisas correlatas subsequentes. O levantamento florístico foi realizado de outubro/1992 a julho/2006 por excursões mensais ao campo. Foram também incluídas na listagem registros ocorrentes em banco de dados de herbários. Foram identificados 1623 táxons, pertencentes à 122 famílias. As famílias mais representativas foram Asteraceae, Fabaceae, Melastomataceae, Poaceae e Orchidaceae. A vegetação do PEIT é constituída por campos rupestres (51% da área do parque), seguido pelas florestas montanas (40%) e por formações antrópicas (9%). A maior riqueza de espécies ocorre nos campos rupestres. Diversas espécies figuram em listas de espécies ameaçadas de extinção e outras são endêmicas. O conhecimento da flora fanerogâmica do Parque Estadual do Itacolomi pode subsidiar o Plano de Manejo dessa Unidade de Conservação e contribuir para futuros trabalhos correlatos nesta área, além de suprir conhecimentos para a flora de Minas Gerais e do Brasil.

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A partial genome dataset was sequenced for the orchid Cattleya crispata using both Illumina and 454 technologies. The chloroplast genome was assembled using iterative runs of MIRA software that yielded a circular molecule with 148,343 bp in length and deposited in GenBank database (Accession Number KP168671). The plastid genome conserved the quadripartite structure present in most Orchidaceae chloroplasts and was composed by 79 protein-coding genes, 39 tRNAs and 8 rRNAs. Genome structure, gene order and orientation were similar to previously described chloroplasts for Cymbidium orchids, differing in gene order for petN and psbM genes. Data described here contain the first report of a complete chloroplast for the Neotropical subtribe Laeliinae and may contribute to improve the phylogenetic resolution and allow the development of new molecular markers for population genetic studies of orchids.

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Estudiamos la riqueza y composición de especies vegetales en tres afloramientos rocosos (lajas) en Lomerío, Santa Cruz, Bolivia, dentro de un bosque seco tropical. Determinamos la variación de la vegetación desde el centro hacia el borde de las lajas, además que caracterizamos algunas especies propias de este hábitat. La riqueza de especies varía entre lajas, pero, en forma conjunta esta riqueza puede ser mayor a otros tipos de bosque aledaños a las lajas. La riqueza de especies fue mayor en el borde que en el centro de las lajas. En el borde de las lajas, la riqueza de especies varia según la distancia al centro de las lajas; la mayor riqueza se encontró en los primeros 10 m del borde. En el centro de las lajas Deuterocohnia meziana Kuntze ex Mez fue la especie más dominante, mientras que las especies más abundantes fueron D. meziana y Monvillea kroenleinii R. Kiesling. En el borde de las lajas Anthurium plowmanii Croat, Pseudananas sagenarius (Arruda) Camargo, Urera baccifera L., Casearia gossypiosperma Briq., Aspidosperma rigidum Rusby y Cereus tacuaralensis Cárdenas fueron las especies más abundantes. De acuerdo a las clases diamétricas, se puede considerar que existe regeneración natural para las principales especies arbóreas. Las lajas son hábitats muy importantes que deben considerarse dentro del manejo forestal de bosques naturales adyacentes, puesto que constituyen lugares de alta diversidad y endemismo de plantas y animales y que son refugios y fuentes de alimentación de muchas especies de animales.

Plant species richness and composition was studied on three rock outcrops (lajas) in a tropical dry forest in Lomerio, Bolivia. The variation in vegetation was determined from the center to the periphery of the influence of the rock outcrops and plant species indicators of rock outcrop habitats were identified. Species richness varied among lajas, but was higher in rock outcrop habitats compared to adjoining forests. Species richness was highest on the periphery of the rock outcrops compared to the vegetated islands on the center of the outcrop. The highest species richness was encountered 10 m from the vegetated border on the periphery of the pure rock surface. Deuterocohnia meziana Kuntze ex Mez was the most dominant (highest ground cover) plant species colonizing the center of the rock outcrops, while D. meziana and Monvillea kroenleinii R. Kiesling were the most abundant. On the periphery of the laja Anthurium plowmanii Croat, Pseudananas sagenarius (Arruda) Camargo, Urera baccifera L., Casearia gossypiosperma Briq., Aspidosperma rigidum Rusby and Cereus tacuaralensis Cárdenas were the most dominant species. Regeneration appears to be occurring for the principal tree species. Lajas are key habitats that should be considered in the natural management of forests in which they are imbedded. They constitute areas of high biodiversity and endemic species and are refuges and feeding areas for many animal species.