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The effect of canopy gaps on growth and morphology of seedlings of rain forest species (1988)

Popma, J. ; Bongers, F.

Springer

Oecologia 75 (1988), S. 625-632

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ISSN: 1432-1939

Keywords: Biomass allocation ; Canopy gaps ; Seedling growth ; Shade tolerance ; Tropical rain forest

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary Growth and morphology of seedlings of ten tropical rain forest species were studied at Los Tuxtlas, Mexico. Seedlings were grown in three environmental conditions: the shaded forest understorey (FU, receiving 0.9–2.3% of the daily photosynthetic photon flux, PF, above the canopy), a small canopy gap of approx. 50 m2 (SG, receiving 2.1–6.1% of daily PF), and a large canopy gap of approx. 500 m2 (LG, receiving 38.6–53.4% of daily PF). The growth of all species was enhanced in gaps, and in LG the effect was stronger than in SG. Plants grown in LG had a sunplant morphology, with a high root-shoot ratio (R/S), a high specific leaf weight (SLW) and a low leaf area ratio (LAR). Plants grown in SG or FU showed a shade-plant morphology, with a low R/S, a low SLW and a high LAR. Growth responses varied from species unable to grow in the shade but with strong growth in the sun, to species with relatively high growth rates in both shade and sun conditions. Shade tolerant species were able to grow in the shade because of a relatively high unit leaf rate. The pioneerCecropia had a high growth rate in LG because of a high LAR. Most species showed a complex growth response in which they resembled the shade intolerant extreme in some aspects of the response, and the shade tolerant extreme in other aspects.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00776429

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Structure and floristic composition of the lowland rain forest of Los Tuxtlas, Mexico (1988)

Bongers, F. ; Popma, J. ; Castillo, J. Meave ; [et al.]

Springer

Plant ecology 74 (1988), S. 55-80

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ISSN: 1573-5052

Keywords: Allometry ; Diversity ; Dynamics ; Physiognomy ; Population structure ; Tropical rain forest ; Vegetation structure

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Physiognomy, structure and floristic composition of one hectare of lowland tropical rain forest was studied in detail at Los Tuxtlas, Mexico. Physiognomically, the Los Tuxtlas forest should be classified as ‘lowland tropical high evergreen rain forest’. The forest showed a closed canopy at 30–35 m. Of all woody, non-climbing species with a DBH≥1.0 cm 89.4% (94.5% of all individuals) were evergreen, 25.4% (59.5% of the individuals) had compound leaves, and over 80% of species (and individuals) had leaves in the notophyll and mesophyll size classes. The forest structure was characterized by a low density (2976 individuals with a DBH≥1.0 cm, 346 individuals with a DBH≥10.0 cm, per ha, excluding vines) with an average basal area (38.1 m2, DBH≥1.0 cm, 34.9 m2, DBH≥10.0 cm, per ha, excluding vines). This was attributed to the relative maturity of the forest on the study plot. The study plot contained 234 species (11 208 individuals with a height ≥0.5 m), of which 55.1% (34.8% of individuals) were trees, 9.4% (6.8%) shrubs, 3.4% (44.3%) palms, 20.1% (5.2%) vines, 6.8% (8.7%) herbs and 5.1% (0.3%) of unknown lifeform. Furthermore, 58 species of epiphytes and hemi-epiphytes were found. Diversity of trees, shrubs and palms with a DBH≥1.0 cm was calculated as Shannon-Wiener index (4.65), Equitability index (0.65), and Simpson index (0.10). The dominance-diversity curve showed a lognormal form, characteristic for tropical rain forest. The community structure was characterized by a relative dominance of Astrocaryum mexicanum in the understorey, Pseudolmedia oxyphyllaria in the middle storeys, and Nectandra ambigens in the canopy. Species population structures of 31 species showed three characteristic patterns, differentiated by recruitment: continuously high, discontinuously high, and continuously low recruitment. Height/diameter and crown cover/diameter diagrams suggested a very gradual shift from height growth to crown growth during tree development. Forest turnover was calculated as 138 years. Compared to other tropical rain forests the Los Tuxtlas forest had 1. similar leaf physiognomical characteristics, 2. a lower diversity, 3. a lower density, 4. an average basal area, and 5. a slow canopy turnover.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00045614

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Patterns in the vertical structure of the tropical lowland rain forest of Los Tuxtlas, Mexico (1988)

Popma, J. ; Bongers, F. ; Meave del Castillo, J.

Springer

Plant ecology 74 (1988), S. 81-91

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ISSN: 1573-5052

Keywords: Diversity ; Floristics ; Physiognomy ; Scale problem ; Stratification ; Vertical vegetation structure

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract The vertical structure of one hectare of tropical rain forest was studied at Los Tuxtlas, State of Veracruz, Mexico. The structure was analysed at various scales of analysis, using different methodologies e.g. profile diagrams (0.1 ha) and vertical structure diagrams (1 ha). All profile diagrams suggested presence of stratification to some extent. However, simultaneous evaluation of several adjacent profile diagrams showed that the use of one profile diagram only can be very misleading: gaps or layers apparent in a diagram did usually not reflect gaps or layers that could be recognized in the field. Structure diagrams of abundance, basal area and crown cover showed that this forest community is not stratified, with the exception of an understorey layer below 7.5 m dominated by palms. The vertical structure was described using arbitrarily chosen height intervals. From the forest floor to the canopy top basal area, percentage of deciduous species (and individuals), and percentage of compound-leaved species (and individuals), increased, but total number of individuals and number of species decreased. Leaf sizes tended to decrease in the same direction, and crown cover was approximately evenly distributed. Species from different families dominated different parts along the vertical plane. It is concluded that the vertical structure of tropical rain forest can best be described as a complex gradient, involving many community features. Stratification can best be emphasized as a special case of such a gradient.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00045615

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