ALBERT — All Library Books, journals and Electronic Records Telegrafenberg

1

Electronic Resource

A new paradigm for drug discovery in tropical rainforests (1996)

Capson, Todd L. ; Coley, Phyllis D. ; Kursar, Thomas A.

[s.l.] : Nature Publishing Company

Nature biotechnology 14 (1996), S. 1200-1202

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ISSN: 1546-1696

Source: Nature Archives 1869 - 2009

Topics: Biology , Process Engineering, Biotechnology, Nutrition Technology

Notes: [Auszug] Tropical rainforests contain one-half to two-thirds of the world's flowering plants and should be a particularly rich source of pharmaceutical agents'. In comparison with plants from temperate regions, rainforest plants are subject to greater levels of herbivory and disease, and have therefore ...

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1038/nbt1096-1200

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2

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River dynamics and the diversity of Amazon lowland forest (1986)

Salo, Jukka ; Kalliola, Risto ; Häkkinen, Ilmari ; [et al.]

[s.l.] : Nature Publishing Group

Nature 322 (1986), S. 254-258

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ISSN: 1476-4687

Source: Nature Archives 1869 - 2009

Topics: Biology , Chemistry and Pharmacology , Medicine , Natural Sciences in General , Physics

Notes: [Auszug] The degree of forest disturbance caused by river-channel erosion was studied in 〉0.5 x 106 km2 of the Peruvian Amazon by using analyses of Landsat MSS (multi-spectral scanner) images (visual analysis). The disturbance is caused by the lateral erosion and channel changes of the meandering and ...

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1038/322254a0

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3

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Effects of leaf age and plant life history patterns on herbivory (1980)

Coley, Phyllis D.

[s.l.] : Nature Publishing Group

Nature 284 (1980), S. 545-546

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ISSN: 1476-4687

Source: Nature Archives 1869 - 2009

Topics: Biology , Chemistry and Pharmacology , Medicine , Natural Sciences in General , Physics

Notes: [Auszug] For this study, tree species were classified into two groups, pioneers or persistents. Persistent species tolerate shade as seedlings and saplings, whereas pioneer species are unable to survive in the shade18,23. Pioneer species may differ from persistent ones in antiherbivore characteristics ...

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1038/284545a0

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4

Electronic Resource

Costs and benefits of defense by tannins in a neotropical tree (1986)

Coley, Phyllis D.

Springer

Oecologia 70 (1986), S. 238-241

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ISSN: 1432-1939

Keywords: Defense ; Herbivory ; Tannins ; Cecropia ; Neotropical trees

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary The costs and benefits of defense by tannins were investigated for a neotropical tree, Cecropia peltata L. (Moraceae). Seedlings of equal age were grown under uniform conditions in a greenhouse for 18 months. Within a plant, leaf tannin concentrations measured in different years were highly correlated. Tannin concentrations differed substantially among individuals; plants with high tannin content had lower damage levels in herbivory experiments. The effects of tannin on herbivory appeared to be dosage dependent. There was, however, a cost associated with tannin production in terms of reduced leaf production.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00379246

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5

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Contrasting modes of light acclimation in two species of the rainforest understory (1999)

Kursar, T. A. ; Coley, Phyllis D.

Springer

Oecologia 121 (1999), S. 489-498

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ISSN: 1432-1939

Keywords: Key words Tropical ; Shade tolerance ; Quantum yield ; Leaf angle ; Leaf lifespan

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract In tropical rainforests, the increased light associated with the formation of treefall gaps can have a critical impact on the growth and survivorship of understory plants. Here we examine both leaf-level and whole-plant responses to simulated light gap formation by two common shade-tolerant shrubs, Hybanthus prunifolius and Ouratea lucens. The species were chosen because they differed in leaf lifespans, a trait that has been correlated with a number of leaf- and plant-level processes. Ouratea leaves typically live about 5 years, while Hybanthus leaves live less than 1 year. Potted plants were placed in the understory shade for 2 years before transfer to a light gap. After 2 days in high light, leaves of both species showed substantial photoinhibition, including reduced CO2 fixation, F v/F m and light use efficiency, although photoinhibition was most severe in Hybanthus. After 17 days in high light, leaves of both species were no longer photoinhibited. In response to increased light, Ouratea made very few new leaves, but retained most of its old leaves which increased photosynthetic capacity by 50%. Within a few weeks of transfer to high light, Hybanthus had dropped nearly all of its shade leaves and made new leaves that had a 2.5-fold greater light-saturated photosynthetic rate. At 80 days after transfer, the number of new leaves was 4.9-fold the initial leaf number. After 80 days in high light, Hybanthus had approximately tenfold greater productivity than Ouratea when leaf area, photosynthetic capacity, and leaf dark respiration rate were all taken into account. Although both species are considered shade tolerant, we found that their growth responses were quite different following transfer from low to high light. The short-lived Hybanthus leaves were quickly dropped, and a new canopy of sun leaves was produced. In contrast, Ouratea showed little growth response at the whole-plant level, but a greater ability to tolerate light stress and acclimate at the leaf level. These differences are consistent with predictions based on leaf lifespan and are discussed within the context of other traits associated with shade-tolerant syndromes.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s004420050955

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6

Electronic Resource

Photosynthetic induction times in shade-tolerant species with long and short-lived leaves (1993)

Kursar, Thomas A. ; Coley, Phyllis D.

Springer

Oecologia 93 (1993), S. 165-170

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ISSN: 1432-1939

Keywords: Photosynthesis ; Induction ; Light flecks ; Leaf lifespan ; Rainforest

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract In the understory of a tropical rainforest, light flecks can contribute 10–80% of the total light flux. We investigated the capacity of eight shade-tolerant species to use light flecks by examining the time required for full induction of photosynthesis during an artificial light fleck. CO2 fixation rates were measured with a portable LiCor gas-exchange system for plants growing in the field on Barro Colorado Island, Panama. In all species induction to 50% of maximum CO2 fixation occurred quickly, from 1 to 3 min. In species with short leaf lifetimes (1 year), induction to 90% of maximum also occurred quickly, in 3–6 min. In contrast, the species with longer lived leaves (〉4 years) required 11–36 min for induction to 90% of maximum. Induction times for leaves from gap and understory plants of the same species were indistinguishable. Elevated CO2 did not eliminate the slow induction phase of long-lived leaves. This suggests that slow induction did not result from stomatal limitation. O2 evolution, measured on excised leaf disks, induced in 3–4 min in species with short-lived leaves, and 4–8 min in species with long-lived leaves. The rapid induction of O2 evolution indicates that the slower induction of CO2 fixation in long-lived leaves was not caused by a delay in the induction of electron transport. Activation of rubisco may be the major factor limiting response times in species with long-lived leaves. Species from Panama with short-lived leaves had remarkably rapid induction times that are comparable to those of algae or higher plant chloroplasts. We also found that understory forest plants induced two to seven times more quickly than did potted plants.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00317666

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7

Electronic Resource

Possible Effects of Climate Change on Plant/Herbivore Interactions in Moist Tropical Forests (1998)

Coley, Phyllis D.

Springer

Climatic change 39 (1998), S. 455-472

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ISSN: 1573-1480

Source: Springer Online Journal Archives 1860-2000

Topics: Geosciences , Physics

Notes: Abstract The interactions between plants and herbivores are key determinants of community structure world wide. Their role is particularly important in lowland tropical rain forests where rates of herbivory are higher, plants are better defended chemically and physically, and herbivores have specialized diets. In contrast to the temperate zone, most of the herbivory in the tropics occurs on ephemeral young leaves (〉70%), which requires herbivores to have finely tuned host-finding abilities. As a consequence of these tight ecological and evolutionary linkages, the interplay between plants and herbivores in the tropics may be more susceptible to perturbations of climate change. Increases in global temperature, atmospheric CO2, and the length of the dry season are all likely to have ramifications for plant/herbivore interactions in the tropics. Here I extrapolate from our current and incomplete understanding of the mechanisms regulating plant/herbivore interactions and present a scenario for possible trends under a changing climate. Although elevated CO2 tends to enhance plant growth rates, the larger effects of increased drought stress will probably result in lower growth. In atmospheres experimentally enriched in CO2, the nutritional quality of leaves declines substantially due to a dilution of nitrogen by 10-30%. This response is buffered in plant species associated with nitrogen fixers. Elevated CO2 should also cause a slight decrease in nitrogen-based defenses (e.g., alkaloids) and a slight increase in carbon-based defenses (e.g., tannins). The most dramatic and robust predicted effect of climate change is on rates of herbivory. Lower foliar nitrogen due to CO2 fertilization of plants causes an increase in consumption per herbivore by as much as 40%, and unusually severe drought appears to cause herbivore populations to explode. In areas where elevated CO2 is combined with drying, rates of herbivory may rise 2-4 fold. The frequency of insect outbreaks is also expected to increase. Higher herbivory should further reduce plant growth rates, perhaps favoring plant species that are well-defended or fix nitrogen. The predicted increase in the number of herbivores is primarily due to relaxed pressure from predators and parasitoids. Elevated temperatures may increase herbivore developmental times, affording them partial escape from discovery by natural enemies, and drought appears to decimate parasitoid populations. The expected decline in parasitoid numbers may be due to direct effects of dry season drought or to the relative scarcity of herbivores during that period. As a consequence, the relative abundance of species will change, and overall biodiversity should decline.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1005307620024

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The global distribution of diet breadth in insect herbivores (2014)

Forister, Matthew L. ; Novotny, Vojtech ; Panorska, Anna K. ; [et al.]

National Academy of Sciences

In: PNAS - Proceedings of the National Academy of Sciences of the United States of America. 2014; 112(2): 442-447. Published 2014 Dec 29. doi: 10.1073/pnas.1423042112.

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Publication Date: 2014-12-29

Description: Understanding variation in resource specialization is important for progress on issues that include coevolution, community assembly, ecosystem processes, and the latitudinal gradient of species richness. Herbivorous insects are useful models for studying resource specialization, and the interaction between plants and herbivorous insects is one of the most common and consequential ecological associations on the planet. However, uncertainty persists regarding fundamental features of herbivore diet breadth, including its relationship to latitude and plant species richness. Here, we use a global dataset to investigate host range for over 7,500 insect herbivore species covering a wide taxonomic breadth and interacting with more than 2,000 species of plants in 165 families. We ask whether relatively specialized and generalized herbivores represent a dichotomy rather than a continuum from few to many host families and species attacked and whether diet breadth changes with increasing plant species richness toward the tropics. Across geographic regions and taxonomic subsets of the data, we find that the distribution of diet breadth is fit well by a discrete, truncated Pareto power law characterized by the predominance of specialized herbivores and a long, thin tail of more generalized species. Both the taxonomic and phylogenetic distributions of diet breadth shift globally with latitude, consistent with a higher frequency of specialized insects in tropical regions. We also find that more diverse lineages of plants support assemblages of relatively more specialized herbivores and that the global distribution of plant diversity contributes to but does not fully explain the latitudinal gradient in insect herbivore specialization.

Print ISSN: 0027-8424

Electronic ISSN: 1091-6490

Topics: Biology , Medicine , Natural Sciences in General

Published by National Academy of Sciences

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Uprooting and snapping of trees: structural determinants and ecological consequences (1983)

Putz, Francis E. ; Coley, Phyllis D. ; Lu, Karen ; [et al.]

Canadian Science Publishing

In: Canadian Journal of Forest Research. 1983; 13(5): 1011-1020. Published 1983 Oct 01. doi: 10.1139/x83-133.

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Publication Date: 1983-10-01

Description: The influence of mechanical and architectural properties of trees on growth rates, mortality rates, and relative probabilities of snapping and uprooting were examined on Barro Colorado Island, Republic of Panama. Of 310 fallen trees, 70% snapped, 25% uprooted, and 5% broke off at ground level. Stepwise discriminant analysis between snapped and uprooted trees indicated that of the variables measured, wood properties were the most important factors determining the type of death in trees. Uprooted trees tended to be larger, shorter for a given stem diameter, and to have denser, stiffer, and stronger wood than snapped trees. There were no significant differences between trees that snapped and trees that uprooted in the extent of buttress development or in the slope of the ground upon which they grew. Trees with low density wood grew faster in stem diameter than those with high density wood but also suffered higher mortality rates. After damage, many of the snapped trees sprouted; small trees sprouted more frequently than large trees. Sprouting is proposed as a means by which weak-wooded fast-growing trees partially compensate for being prone to snapping.

Print ISSN: 0045-5067

Electronic ISSN: 1208-6037

Topics: Agriculture, Forestry, Horticulture, Fishery, Domestic Science, Nutrition