Mundayatan Haridasan

Ecological thresholds at the savanna-forest boundary: how plant traits, resources and fire govern the distribution of tropical biomes.

Fire shapes the distribution of savanna and forest through complex interactions involving climate, resources and species traits. Based on data from central Brazil, we propose that these interactions are governed by two critical thresholds. The fire-resistance threshold is reached when individual trees have accumulated sufficient bark to avoid stem death, whereas the fire-suppression threshold is reached when an ecosystem has sufficient canopy cover to suppress fire by excluding grasses. Surpassing either threshold is dependent upon long fire-free intervals, which are rare in mesic savanna. On high-resource sites, the thresholds are reached quickly, increasing the probability that savanna switches to forest, whereas low-resource sites are likely to remain as savanna even if fire is infrequent. Species traits influence both thresholds; saplings of savanna trees accumulate bark thickness more quickly than forest trees, and are more likely to become fire resistant during fire-free intervals. Forest trees accumulate leaf area more rapidly than savanna trees, thereby accelerating the transition to forest. Thus, multiple factors interact with fire to determine the distribution of savanna and forest by influencing the time needed to reach these thresholds. Future work should decipher multiple environmental controls over the rates of tree growth and canopy closure in savanna.

Aluminium accumulation by some cerrado native species of central Brazil

SummaryAmong thirty species belonging to seventeen families common in the cerrado region of central Brazil, eight species belonging to three families were found to accumulate aluminium in their leaves in considerable amounts (4,310 to 14,120 mg/kg on dry weight basis) from a dark red latossol which is strongly-acid and low in available nutrient cations. The aluminium-accumulating species areMiconia ferruginata (DC.) Cogn.,Miconia pohliana Cogn. (Melastomataceae);Palicourea rigida H. B. K. (Rubiaceae);Qualea grandiflora Mart.,Qualea multiflora Mart.,Qualea parviflora Mart. (Vochysiaceae);Vochysia elliptica (Spr.) Mart., andVochysia thyrsoidea Pohl (Vochysiaceae). High levels of aluminium in the leaves of these plants were not associated with low foliar levels of calcium, magnesium, potassium, iron, manganese, zinc, or phosphorus as compared to the other species which do not accumulate aluminium. In spite of the low pH and the low base saturation of the soil the aluminium-accumulating species seem to have an efficient mechanism for absorbing all cations from the soil.

Nutritional adaptations of native plants of the cerrado biome in acid soils

Soils of the cerrado biome, mostly oxisols and deep sandy entisols, are acid, dystrophic and poor in available nutrients. These soils are not very different from soils that occur in the Amazon region. However, the open savanna physiognomies of cerrado with lower biomass of their different components are deficient in nutrients at the ecosystem level, unlike the Amazon forests which retain high nutrient reserves in their live biomass. Field crops are susceptible to aluminum and manganese toxicities, besides nutrient deficiencies, in cerrado soils and do not grow well in the absence of liming and fertilization. However, concepts of nutrient deficiencies and toxicities, well established for cultivated plants, should not be extended to native species in natural ecosystems, indiscriminately. Many native plants in the cerrado biome are resistant or tolerant to soil conditions deemed unfavorable for cultivated plants but their geographic distribution, frequency in native communities, growth and productivity are determined by water and nutrient availability and other edaphic conditions. Species growing on acid soils are aluminum tolerant or resistant, since their capacity to absorb essential nutrients, growth and reproduction is not affected by high aluminum levels in the soil. Many common species of the cerrado, instead of excluding aluminum, absorb and transport it to leaves and accumulate it in different tissues including leaves and seeds whereas others do not survive in the absence of exchangeable aluminum, even though no specific role of Al in plant metabolism is yet established.

Comparação da vegetação arbórea e características edáficas de um cerradão e um cerrado sensu stricto em áreas adjacentes sobre solo distrófico no leste de Mato Grosso, Brasil

Cerrado sensu stricto and cerradao often occur side by side under similar edaphic and topographic conditions. The factors which contribute to the existence of cerradao in this situation are not well established. The objective of the present study was to compare the floristic composition and phytosociology of a Cerrado and cerradao on a dystrophic soil in eastern Mato Grosso and to determine whether higher soil fertility was contributing to the existence of the cerradao. Fifty 10 m×10 m plots were laid out in each vegetation type and a phytosociological survey was conducted of all trees with a minimum diameter of 5 cm at 30 cm above ground level. Soil samples were collected up to a depth of 2 m of soil profiles and from surface layer (0-10 and 10-20 cm) in each area. The two physiognomies showed distinct floristic, structural and phytosociological characteristics. The basal area (21.4 m2 ha-1) and the mean heights (6.4 m) of the cerradao were greater than that of the cerrado sensu stricto (14.9 m2 ha-1 and 3.7 m). The three most important species were Hirtella glandulosa Spreg., Sclerolobium paniculatum Vog. and Xylopia aromatica (Lam.) Mart. in the cerradao, representing 29% of the total Importance Value (IVI), and Qualea parviflora Mart., Davilla elliptica A. St.-Hil. and Roupala montana Aubl. in the cerrado sensu stricto, representing 21% of the total IVI. The soils of both areas were acid (pH 1.3 cmolc kg-1). The fertility of the soils of the two areas was not different to support the hypothesis that the occurrence of the cerradao was due to the higher fertility of its soil. However, the cerradao soil showed higher percentages of clay than the cerrado soil at all depths up to 2 m, which could result in a higher availability of water throughout the year for the trees. This is an aspect worth investigating in future studies.

Aluminium-accumulating species in two forest communities in the cerrado region of central Brazil

Abstract The incidence of aluminium-accumulating species was investigated in two forest communities in the cerrado region of central Brazil. One of the forests was on a strongly acid dystrophic latosol with 85% Al saturation, and the other on a mesotrophic but slightly acidic soil with 4% Al saturation. Among the 39 species encountered on the dystrophic soil, seven were Al accumulators accounting for 17.3% of the total importance value of the community. On the other hand, only three out of 39 species on the mesotrophic soil were Al accumulators accounting for 11.7% of the total importance value. Only two Al-accumulating species occur on mesotrophic as well as dystrophic soils. Most of the Al-accumulating species encountered on the dystrophic soil generally occur only on dystrophic acid soils.

Photosynthesis of mistletoes in relation to their hosts at various sites in tropical Brazil

Abstract Chlorophyll a fluorescence parameters showing the instantaneous performance and carbon-isotope ratios reflecting long-term behaviour of leaves were determined for a large number of mistletoe/host-pairs in the cerrado belt of Brazil. Study sites were a very exposed rupestrian field, a semi-exposed savanna and a highly shaded gallery forest. The major question asked was if photosynthetic capacity of mistletoe leaves differed from that of the leaves of their respective hosts. It is shown that except for the very exposed rupestrian field site, photosynthetic capacity appeared to be similar in mistletoes and host leaves. The superior behaviour of host leaves in the rupestrian field was due to particularly expressed sun-plant characteristics of the host. However, mistletoes always had higher average stomatal conductances, lower leaf temperatures at similar or even higher irradiance and higher intercellular CO2-partial pressures than hosts. Photosynthetic performance of mistletoe leaves was independent of whether a given mistletoe species parasitized aluminium-accumulating or non-accumulating host species in the cerrados with their aluminium-rich soils.

Can savannas become forests? A coupled analysis of nutrient stocks and fire thresholds in central Brazil

AimsThe effects of fire ensure that large areas of the seasonal tropics are maintained as savannas. The advance of forests into these areas depends on shifts in species composition and the presence of sufficient nutrients. Predicting such transitions, however, is difficult due to a poor understanding of the nutrient stocks required for different combinations of species to resist and suppress fires.MethodsWe compare the amounts of nutrients required by congeneric savanna and forest trees to reach two thresholds of establishment and maintenance: that of fire resistance, after which individual trees are large enough to survive fires, and that of fire suppression, after which the collective tree canopy is dense enough to minimize understory growth, thereby arresting the spread of fire. We further calculate the arboreal and soil nutrient stocks of savannas, to determine if these are sufficient to support the expansion of forests following initial establishment.ResultsForest species require a larger nutrient supply to resist fires than savanna species, which are better able to reach a fire-resistant size under nutrient limitation. However, forest species require a lower nutrient supply to attain closed canopies and suppress fires; therefore, the ingression of forest trees into savannas facilitates the transition to forest. Savannas have sufficient N, K, and Mg, but require additional P and Ca to build high-biomass forests and allow full forest expansion following establishment.ConclusionsTradeoffs between nutrient requirements and adaptations to fire reinforce savanna and forest as alternate stable states, explaining the long-term persistence of vegetation mosaics in the seasonal tropics. Low-fertility limits the advance of forests into savannas, but the ingression of forest species favors the formation of non-flammable states, increasing fertility and promoting forest expansion.

Localization of aluminium in the leaves of some aluminium-accumulating species

SummaryTransverse sections of leaves of some aluminium-accumulating and nonaccumulating species of the cerrado vegetation of central Brazil were coloured using aluminon to identify the tissues where aluminium occurs or is deposited. None of the tissues of the nonaccumulating species showed evidence of high concentrations of Al. All of the aluminium accumulating species showed high concentrations of Al in all of the elements of the phloem of the midrib and the secondary veins and total absence of it in the vessel members, xylem fibres and the palisade parenchyma. Walls and contents of the collenchyma of the midrib, epidermal cells, guard cells of the stomata and spongy parenchyma showed evidence of high concentrations of Al in the accumulating species.

Primary production and accumulation of nutrients by the ground layer community of cerrado vegetation of central Brazil

SummaryNet aerial primary production and accumulation of nutrients by the grasses and nongrasses of the ground layer community of a cerrado vegetation in central Brazil were determined in burnt and unburnt areas. The net aerial primary production of the ground layer community was 327 gm−2 in the unburnt area and only 242 gm−2 in the burnt area during the first year after fire. Grasses contributed 68 to 78% of the aerial biomass of the ground layer in the unburnt area. The live biomass in the burnt and unburnt areas was comparable by the end of the first dry period after the fire. The major part of N, P and K in the aerial biomass was in the grasses. The concentration of all nutrients in the aerial biomass was generally higher in the burnt area during the first year after the fire.

Seasonal variations in the foliar concentrations of nutrients in some aluminium accumulating and non-accumulating species of the cerrado region of central Brazil

SummaryThe nutritional status of four aluminium accumulators (Palicourea rigida, Vochysia elliptica, Qualea parviflora andMoconia albicans) and four nonaccumulators (Ouratea hexasperma, Roupala montana, Caryocar brasiliense andSclerolobium paniculatum) of the cerrado vegetation of central Brazil was compared over a period of one year. There were no significant differences between the two groups of species in the seasonal variations of leaf concentrations of N, P, K, Ca or Mg. The differences among the species within the groups were more marked than that between the groups. The younger leaves of all species showed higher concentrations of P and K, irrespective of their Al levels. The mature leaves of nonaccumulators had significantly higher levels of Al than younger leaves, but among accumulators the difference between young and mature leaves was significant in only one of the species.