Plant litter decomposition and nutrient cycling in north Queensland tropical rain-forest communities of differing successional status

Abstract:Soil processes are essential in enabling forest regeneration in disturbed landscapes. Little is known about whether litterfall from dominating pioneer species in secondary rain forest is functionally equivalent to that of mixed rain-forest litter in terms of contribution to soil processes. This study used the litterbag technique to quantify the decomposition and nutrient dynamics of leaf litter characteristic of three wet tropical forest communities in the Paluma Range National Park, Queensland, Australia over 511 d. These were: undisturbed primary rain forest (mixed rain-forest species), selectively logged secondary rain forest (pioneer Alphitonia petriei) and tall open eucalypt forest (Eucalyptus grandis). Mass loss, total N, total P, K, Ca and Mg dynamics of the decaying leaves were determined, and different mathematical models were used to explain the mass loss data. Rainfall and temperature data were also collected from each site. The leaves of A. petriei and E. grandis both decomposed significantly slower in situ than the mixed rain-forest species (39%, 38% and 29% ash-free dry mass remaining respectively). Nitrogen and phosphorus were immobilized, with 182% N and 134% P remaining in E. grandis, 127% N and 132% P remaining in A. petriei and 168% N and 121% P remaining in the mixed rain-forest species. The initial lignin:P ratio and initial lignin:N ratio exerted significant controls on decomposition rates. The exceptionally slow decomposition of the pioneer species is likely to limit soil processes at disturbed tropical rain-forest sites in Australia.

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The δ15N signature of the detrital food web tracks a landscape-scale soil phosphorus gradient in a Costa Rican lowland tropical rain forest

Journal of Tropical Ecology ◽

10.1017/s0266467412000284 ◽

2012 ◽

Vol 28 (4) ◽

pp. 395-403 ◽

Cited By ~ 3

Author(s):

Ching-Yu Huang ◽

Katherine L. Tully ◽

Deborah A. Clark ◽

Steven F. Oberbauer ◽

Terrence P. McGlynn

Keyword(s):

Leaf Litter ◽

Rain Forest ◽

Tropical Rain Forest ◽

Nutrient Dynamics ◽

Landscape Scale ◽

Oribatid Mites ◽

Trophic Levels ◽

Total N ◽

Soil P ◽

Lowland Tropical Rain Forest

Abstract:In this study, we investigated whether landscape-scale variation of soil P accounts for 13C and 15N composition of detrital invertebrates in a lowland tropical rain forest in Costa Rica. The top 10-cm soil, leaf-litter samples and plant foliage were collected among 18 plots representing a three-fold soil P gradient during 2007–2009. Body tissue of litter invertebrates (extracted from leaf-litter samples) along with soil, leaf litter and green foliage were analysed for total C, total N, δ13C and δ15N values. Differences in δ13C and δ15N signatures across plots and relative trophic distances of detrital food webs (Δ δ15N), and their variation with soil P gradient were evaluated. We found soil P gradient had a significantly positive correlation with δ15N of Asterogyne martiana foliage, leaf litter, collembolans and oribatid mites. The δ15N of the collembolans and pseudoscorpions positively correlated to leaf-litter δ15N. Δ δ15N between the trophic levels remained consistent across the soil P gradient. Higher δ15N in the collembolans and oribatid mites might be derived from their consumption on 15N-enriched decayed debris or fungal hyphae growing on it. It suggests that fine-scale soil P variation can affect trophic dynamics of detrital arthropods via regulation of microbial community and nutrient dynamics.

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Leaf photosynthetic traits of 14 tropical rain forest species in relation to leaf nitrogen concentration and shade tolerance

Tree Physiology ◽

10.1093/treephys/25.9.1127 ◽

2005 ◽

Vol 25 (9) ◽

pp. 1127-1137 ◽

Cited By ~ 53

Author(s):

S. Coste ◽

J.-C. Roggy ◽

P. Imbert ◽

C. Born ◽

D. Bonal ◽

...

Keyword(s):

Rain Forest ◽

Tropical Rain Forest ◽

Shade Tolerance ◽

Nitrogen Concentration ◽

Leaf Nitrogen ◽

Forest Species ◽

Leaf Nitrogen Concentration ◽

Photosynthetic Traits

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Long‐Term Persistence of Pioneer Species in Tropical Rain Forest Soil Seed Banks

The American Naturalist ◽

10.1086/597221 ◽

2009 ◽

Vol 173 (4) ◽

pp. 531-535 ◽

Cited By ~ 24

Author(s):

James W. Dalling ◽

Thomas A. Brown

Keyword(s):

Forest Soil ◽

Rain Forest ◽

Tropical Rain Forest ◽

Seed Banks ◽

Pioneer Species ◽

Soil Seed Banks

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Influence of shade on photosynthetic gas exchange of 7 tropical rain-forest species from Guadeloupe (French West Indies)

Annales des Sciences Forestières ◽

10.1051/forest:19940106 ◽

1994 ◽

Vol 51 (1) ◽

pp. 77-94 ◽

Cited By ~ 4

Author(s):

M Ducrey

Keyword(s):

Gas Exchange ◽

Rain Forest ◽

West Indies ◽

Tropical Rain Forest ◽

Forest Species ◽

French West Indies ◽

Photosynthetic Gas Exchange

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Implementation of tree species strategy during progressive successions

FORESTRY BULLETIN ◽

10.18698/2542-1468-2021-1-5-12 ◽

2021 ◽

Vol 25 (1) ◽

pp. 5-12

Author(s):

S.G. Glushko ◽

◽

I.R. Galiullin ◽

N.B. Prokhorenko ◽

◽

...

Keyword(s):

Primary Forest ◽

Individual Species ◽

Pioneer Species ◽

Forest Communities ◽

Forest Species ◽

Middle Volga Region ◽

Environmental Processes ◽

Growing Conditions ◽

Primary Forests ◽

Biotic Environment

On the example of regeneration succession in forests, the features of silvicultural properties of the main forest-forming species growing in oak forests of the Middle Volga region are considered. The conclusion is made about the predominance of pioneer-serial forest communities formed by pioneer species in the study area. The pioneer species, which differ significantly in their silvicultural properties from the so-called «primary forest species», are predominant in modern forests. It is shown that at the later stages of reforestation successions, pioneer-serial forest communities are of great importance, the productivity of which becomes stable. The incomplete nature of progressive successions in the surveyed forests was revealed. To restore primary forests, a set of additional measures is required to facilitate the forests reconstruction and the entire forest fund of the region. The mass destruction of forests influences the processes of forest growing conditions and it is determined as a topical issue for further study. The connection between changes in the main forest species and forest communities and changes in forest growing conditions has been established. It is indicated that deforestation massively destroys the biotic environment and alters environmental processes, being the reason for silvicultural properties change in forest plants and their communities. The development of silvicultural properties is adaptive, in this regard, deforestation, with massive destruction of the biotic environment and a corresponding change in environmental processes, contributes to the devlopment of properties inherent in pioneer-serial forest communities. With the degradation of primary forests, a change in the main forest species and forest communities that make up modern forests is noted. Many silvicultural properties inherent in primary forests are not developed in modern conditions. Instead of primary forests, secondary forests are spread, derivative, with other silvicultural properties and their mdevelopment in the form of a complex characteristic of behavior or life strategy. The properties manifested by forest communities and individual species need to be generalized for further research. We have proposed to combine all the properties of forests into the concept of information potential. The information potential of forests can be used to study the features of the silvicultural properties in a changing natural environment.

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