Your search keyword '"Harms, Kyle E."' showing total 35 results

1. Exposing the error hidden in plain sight: A critique of Calder's (1983) group selectionist seed‐dispersal hypothesis for mistletoe "mimicry" of host plants.

Author

Harms, Kyle E., Watson, David M., Santiago‐Rosario, Luis Y., and Mathews, Sarah

Subjects

*HOST plants, *BIOLOGICAL evolution, *MISTLETOES, *HYPOTHESIS

Abstract

Some mistletoe species (Loranthaceae) resemble their host plants to a striking degree. Various mechanisms have been proposed for the developmental origins of novel traits that cause mistletoes to appear similar to their hosts, as well as for the adaptive phenotypic evolution of such traits. Calder (1983) proposed a logically flawed group selectionist seed‐dispersal hypothesis for mistletoes to resemble their hosts. Calder's (1983) hypothesis does not provide a viable potential explanation for mistletoe resemblance to hosts. [ABSTRACT FROM AUTHOR]

Published

2023

2. Contrasts among cationic phytochemical landscapes in the southern United States.

Author

Santiago‐Rosario, Luis Y., Harms, Kyle E., and Craven, Dylan

Subjects

LANDSCAPES, RANDOM forest algorithms, CHEMICAL plants, PLANT cells & tissues, BIOTIC communities

Abstract

Understanding the phytochemical landscapes of essential and nonessential chemical elements to plants provides an opportunity to better link biogeochemical cycles to trophic ecology. We investigated the formation and regulation of the cationic phytochemical landscapes of four key elements for biota: Ca, Mg, K, and Na. We collected aboveground tissues of plants in Atriplex, Helianthus, and Opuntia and adjacent soils from 51, 131, and 83 sites, respectively, across the southern United States. We determined the spatial variability of these cations in plants and soils. Also, we quantified the homeostasis coefficient for each cation and genus combination, by using mixed‐effect models, with spatially correlated random effects. Additionally, using random forest models, we modeled the influence of bioclimatic, soil, and spatial variables on plant cationic concentrations. Sodium variability and spatial autocorrelation were considerably greater than for Ca, Mg, or K. Calcium, Mg, and K exhibited strongly homeostatic patterns, in striking contrast to non‐homeostatic Na. Even so, climatic and soil variables explained a large proportion of plants' cationic concentrations. Essential elements (Ca, Mg, and K) appeared to be homeostatically regulated, which contrasted sharply with Na, a nonessential element for most plants. In addition, we provide evidence for the No‐Escape‐from‐Sodium hypothesis in real‐world ecosystems, indicating that plant Na concentrations tend to increase as substrate Na levels increase. [ABSTRACT FROM AUTHOR]

Published

2022

3. No escape: The influence of substrate sodium on plant growth and tissue sodium responses.

Author

Santiago‐Rosario, Luis Y., Harms, Kyle E., Elderd, Bret D., Hart, Pamela B., and Dassanayake, Maheshi

Subjects

*PLANT growing media, *PLANT growth, *PLANT cells & tissues, *SODIUM in soils, *ECOSYSTEM dynamics, *MICRONUTRIENTS

Abstract

As an essential micronutrient for many organisms, sodium plays an important role in ecological and evolutionary dynamics. Although plants mediate trophic fluxes of sodium, from substrates to higher trophic levels, relatively little comparative research has been published about plant growth and sodium accumulation in response to variation in substrate sodium. Accordingly, we carried out a systematic review of plants' responses to variation in substrate sodium concentrations.We compared biomass and tissue‐sodium accumulation among 107 cultivars or populations (67 species in 20 plant families), broadly expanding beyond the agricultural and model taxa for which several generalizations previously had been made. We hypothesized a priori response models for each population's growth and sodium accumulation as a function of increasing substrate NaCl and used Bayesian Information Criterion to choose the best model. Additionally, using a phylogenetic signal analysis, we tested for phylogenetic patterning of responses across taxa.The influence of substrate sodium on growth differed across taxa, with most populations experiencing detrimental effects at high concentrations. Irrespective of growth responses, tissue sodium concentrations for most taxa increased as sodium concentration in the substrate increased. We found no strong associations between the type of growth response and the type of sodium accumulation response across taxa. Although experiments often fail to test plants across a sufficiently broad range of substrate salinities, non‐crop species tended toward higher sodium tolerance than domesticated species. Moreover, some phylogenetic conservatism was apparent, in that evolutionary history helped predict the distribution of total‐plant growth responses across the phylogeny, but not sodium accumulation responses.Our study reveals that saltier plants in saltier soils proves to be a broadly general pattern for sodium across plant taxa. Regardless of growth responses, sodium accumulation mostly followed an increasing trend as substrate sodium levels increased. [ABSTRACT FROM AUTHOR]

Published

2021

4. Resolution of Respect Joseph Hurd Connell (1923–2020).

Author

Sousa, Wayne P., Harms, Kyle E., Tyler, Claudia M., Lowman, Margaret D., Keough, Michael J., Green, Peter T., and Stewart‐Oaten, Allan

Subjects

BIOTIC communities, RAIN forests, ECOLOGICAL succession, APPLIED ecology, FOREST ecology, COEXISTENCE of species, MARINE habitats

Abstract

On 1 September 2020, we lost a legend in the science of ecology: Dr. Joseph (Joe) Hurd Connell, who died aged 96 (Fig. A year later in 1963, Joe, working with Tracey and Webb, laid out two large permanent rainforest plots, one (1.7 ha) at Davies Creek in tropical North Queensland southwest of Cairns, and the other (1.9 ha) in subtropical South Queensland near O'Reilly's Rainforest Resort within Lamington National Park just south of Brisbane (Connell et al. 1984, Connell and Green 2000, Green et al. 2014). Deevey's review paper and Hatton's research greatly inspired Joe, who always gave credit where credit was due: "my career was shifted into a new direction by Hatton and Deevey, unbeknownst to them" (Connell 1992). He worked hard to clearly communicate his results and conceptual ideas in his writing, Joe as Mentor, Colleague, and Friend Joe gave his graduate students a lot of freedom in their choice of study organisms and field sites. [Extracted from the article]

Published

2021

5. Trade‐offs tip toward litter trapping: Insights from a little‐known Panamanian cloud‐forest treelet.

Author

Harms, Kyle E., Dalling, James W., and Sánchez de Stapf, María N.

Subjects

*CAPPARACEAE, *TRAPPING, *NATIONAL parks & reserves, *PLANT development

Published

2020

6. Plant responses to fertilization experiments in lowland, species‐rich, tropical forests.

Author

Wright, S. Joseph, Turner, Benjamin L., Yavitt, Joseph B., Harms, Kyle E., Kaspari, Michael, Tanner, Edmund V. J., Bujan, Jelena, Griffin, Eric A., Mayor, Jordan R., Pasquini, Sarah C., Sheldrake, Merlin, and Garcia, Milton N.

Subjects

FERTILIZERS, TROPICAL forests, META-analysis, PLANT growth, SOIL fertility

Abstract

Abstract: We present a meta‐analysis of plant responses to fertilization experiments conducted in lowland, species‐rich, tropical forests. We also update a key result and present the first species‐level analyses of tree growth rates for a 15‐yr factorial nitrogen (N), phosphorus (P), and potassium (K) experiment conducted in central Panama. The update concerns community‐level tree growth rates, which responded significantly to the addition of N and K together after 10 yr of fertilization but not after 15 yr. Our experimental soils are infertile for the region, and species whose regional distributions are strongly associated with low soil P availability dominate the local tree flora. Under these circumstances, we expect muted responses to fertilization, and we predicted species associated with low‐P soils would respond most slowly. The data did not support this prediction, species‐level tree growth responses to P addition were unrelated to species‐level soil P associations. The meta‐analysis demonstrated that nutrient limitation is widespread in lowland tropical forests and evaluated two directional hypotheses concerning plant responses to N addition and to P addition. The meta‐analysis supported the hypothesis that tree (or biomass) growth rate responses to fertilization are weaker in old growth forests and stronger in secondary forests, where rapid biomass accumulation provides a nutrient sink. The meta‐analysis found no support for the long‐standing hypothesis that plant responses are stronger for P addition and weaker for N addition. We do not advocate discarding the latter hypothesis. There are only 14 fertilization experiments from lowland, species‐rich, tropical forests, 13 of the 14 experiments added nutrients for five or fewer years, and responses vary widely among experiments. Potential fertilization responses should be muted when the species present are well adapted to nutrient‐poor soils, as is the case in our experiment, and when pest pressure increases with fertilization, as it does in our experiment. The statistical power and especially the duration of fertilization experiments conducted in old growth, tropical forests might be insufficient to detect the slow, modest growth responses that are to be expected. [ABSTRACT FROM AUTHOR]

Published

2018

7. The causes of disproportionate non-random mortality among life-cycle stages.

Author

Green, Peter T. and Harms, Kyle E.

Subjects

*BIOTIC communities, *STOCHASTIC processes, *RAIN forests, *LIFE cycles (Biology), *MATHEMATICAL models

Abstract

The emergent properties of the collection of species in a natural community, such as diversity and the distribution of relative abundances, are influenced by both niche-based and neutral (stochastic) processes. This pluralistic view of the natural world reconciles theory with empirical observations better than does either a strictly niche- or neutrality-based perspective. Even so, rules (or rules of thumb) that govern the relative contributions that niche-based and stochastic processes make as communities assemble remain only vaguely formulated and incompletely tested. For example, the translation of non-random (non-neutral) ecological processes, which differentially sort among species within a community, into species-compositional patterns may occur more influentially within some demographic subsets of organisms than within others. In other words, the relative contributions of niche vs. neutral processes may vary among age-, size-, or stage-classes. For example, non-random patterns of mortality that occur among seedlings in a rain forest, or among newly settled juveniles in communities of sessile marine communities, could be more influential than non-random mortality during later stages in determining overall community diversity. We propose two alternative, mutually compatible, hypotheses to account for different levels of influence from mortality among life-cycle stages toward producing non-random patterns in organismal communities. The Turnover Model simply posits that those demographic classes characterized by faster rates of turnover contribute greater influence in the short-term as sufficient mortality gives rise to non-random changes to the community, as well as over the longer-term as multiple individuals of a given fast-turnover demographic class transition into later classes compared to each individual that ratchets from a slow-turnover starting class into a later class. The Turnover Model should apply to most communities of organisms. The Niche Model, which posits that niche-based processes are more influential in some demographic classes relative to others, may alternatively or additionally apply to communities. We also propose several alternative mechanisms, especially relevant to forest trees, that could cause dynamics consistent with the Niche Model. These mechanisms depend on differences among demographic classes in the extent of demographic variation that individual organisms experience through their trait values or neighborhood conditions. [ABSTRACT FROM AUTHOR]

Published

2018

8. Groundcover community assembly in high-diversity pine savannas: seed arrival and fire-generated environmental filtering.

Author

HARMS, KYLE E., GAGNON, PAUL R., PASSMORE, HEATHER A., MYERS, JONATHAN A., and PLATT, WILLIAM J.

Abstract

. Environmental filtering—abiotic and biotic constraints on the demographic performance of individual organisms—is a widespread mechanism of selection in communities. A given individual is “filtered out” (i.e., selectively removed) when environmental conditions or disturbances like fires preclude its survival and reproduction. Although interactions between these filters and dispersal from the regional species pool are thought to determine much about species composition locally, there have been relatively few studies of dispersal 9 filtering interactions in species-rich communities and fewer still where fire is also a primary selective agent. We experimentally manipulated dispersal and filtering by fire (pre-fire fuel loads and post-fire ash) in species-rich groundcover communities of the longleaf pine ecosystem. We tested four predictions: (1) That species richness would increase with biologically realistic dispersal (seed addition); (2) that the immediate effect of increased fuels in burned communities would be to decrease species richness, whereas the longer-term effects of increased fuels would be to open recruitment opportunities in the groundcover, increase species richness, and increase individual performance (growth) of immigrating species; (3) that adding ash would increase species richness; and (4) that increased dispersal would generate larger increases in species richness in plots with increased fuels compared to plots with decreased fuels. We found that dispersal interacted with complex fire-generated filtering during and after fires. Dispersal increased species richness more in burned communities with increased and decreased fuels compared to burned controls. Moreover, individuals of immigrating species generally grew to larger sizes in burned communities with increased fuels compared to burned controls. In contrast to dispersal and fuels, ash had no effect on species richness directly or in combination with other treatments. We conclude that filtering occurs both during fires and in the post-fire environment and that these influences interact with dispersal such that the consequences are only fully revealed when all are considered in combination. Our experiment highlights the importance of considering the dynamic interplay of dispersal and selection in the assembly of species-rich communities. [ABSTRACT FROM AUTHOR]

Published

2017

9. The biogeography of sodium in Neotropical figs (Moraceae).

Author

Bravo, Adriana and Harms, Kyle E.

Subjects

MORACEAE, SODIUM, BIOGEOGRAPHY, AEROSOLS, COASTAL ecology

Abstract

Copyright of Biotropica is the property of Wiley-Blackwell and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2017

10. Host promiscuity in symbiont associations can influence exotic legume establishment and colonization of novel ranges.

Author

Klock, Metha M., Barrett, Luke G., Thrall, Peter H., Harms, Kyle E., and Kleunen, Mark

Subjects

ACACIA, INTRODUCED plants, NATURE reserves, PLANT colonization, MICROBIAL invasiveness, HOSTS (Biology)

Abstract

Aim Invasive Acacia species have negatively impacted natural areas in multiple regions around the globe. Almost 400 Acacia species have been introduced outside their native ranges in Australia; approximately 6% have become invasive, 12% are naturalized, and 82% have no record of naturalization or invasion. This variation in invasiveness provides a comparative framework in which to examine mechanisms that either promote or constrain establishment and colonization of species in novel regions. Here, we experimentally examine the role that the legume-rhizobia symbiosis plays in the differential invasiveness of acacias introduced outside their native Australian ranges. Location Canberra, Australia. Methods We paired 12 Acacia species ranging in invasiveness globally with 12 rhizobial strains ranging in average symbiotic effectiveness. We measured plant growth and nodulation success and abundance to assess whether invasive acacias were more promiscuous hosts, that is had positive growth and nodulation responses to a broader range of rhizobial strains than naturalized and non-invasive species. Results Invasive acacias had a higher growth response across more rhizobial strains (six of 12 strains) than naturalized and non-invasive species, but invasiveness categories differed only moderately with regard to the percentage of plants with nodules and nodulation abundance. Main conclusion With respect to plant growth, invasive acacias appear to be more promiscuous hosts than naturalized and non-invasive Australian Acacia species. Plant growth response to nodulation, however, is likely more important than nodulation alone in the successful invasion of species in novel ranges. Results from this study help elucidate an important mechanism in the invasive capacity of legumes. [ABSTRACT FROM AUTHOR]

Published

2015

11. Fuels and fires influence vegetation via above- and belowground pathways in a high-diversity plant community.

Author

Gagnon, Paul R., Passmore, Heather A., Slocum, Matthew, Myers, Jonathan A., Harms, Kyle E., Platt, William J., Paine, C. E. Timothy, and Damschen, Ellen

Subjects

PLANT communities, PLANT diversity, PLANT evolution, PLANT ecology, SOIL heating, PLANT conservation

Abstract

Fire strongly influences plant populations and communities around the world, making it an important agent of plant evolution. Fire influences vegetation through multiple pathways, both above- and belowground. Few studies have yet attempted to tie these pathways together in a mechanistic way through soil heating even though the importance of soil heating for plants in fire-prone ecosystems is increasingly recognized., Here we combine an experimental approach with structural equation modelling ( SEM) to simultaneously examine multiple pathways through which fire might influence herbaceous vegetation. In a high-diversity longleaf pine groundcover community in Louisiana, USA, we manipulated fine-fuel biomass and monitored the resulting fires with high-resolution thermocouples placed in vertical profile above- and belowground., We predicted that vegetation response to burning would be inversely related to fuel load owing to relationships among fuels, fire temperature, duration and soil heating., We found that fuel manipulations altered fire properties and vegetation responses, of which soil heating proved to be a highly accurate predictor. Fire duration acting through soil heating was important for vegetation response in our SEMs, whereas fire temperature was not., Our results indicate that in this herbaceous plant community, fire duration is a good predictor of soil heating and therefore of vegetation response to fire. Soil heating may be the key determinant of vegetation response to fire in ecosystems wherein plants persist by resprouting or reseeding from soil-stored propagules., Synthesis. Our SEMs demonstrate how the complex pathways through which fires influence plant community structure and dynamics can be examined simultaneously. Comparative studies of these pathways across different communities will provide important insights into the ecology, evolution and conservation of fire-prone ecosystems. [ABSTRACT FROM AUTHOR]

Published

2015

12. Resource-based habitat associations in a neotropical liana community.

Author

Dalling, James W., Schnitzer, Stefan A., Baldeck, Claire, Harms, Kyle E., John, Robert, Mangan, Scott A., Lobo, Elena, Yavitt, Joseph B., and Hubbell, Stephen P.

Subjects

CLIMBING plants, PLANT communities, PLANT habitats, SOIL chemistry, FOREST ecology, HABITATS

Abstract

1. Lianas are a conspicuous element of many tropical forests, accounting for up to 40% of woody stem density and 20% of species richness in seasonal forests. However, lianas have seldom been surveyed at sufficiently large spatial scales to allow an assessment of the importance of habitat variables in structuring liana communities. 2. We compare the association patterns of 82 liana species and an equivalent sample of tree species on the 50 ha Forest Dynamics Project plot on Barro Colorado Island, Panama, with topographic habitat variables (high and low plateau, slope, swamp and streamside), and thirteen mapped soil chemical variables. In addition, we test for liana species associations with canopy disturbance using a canopy height map of the plot generated using light detection and ranging. 3. For all liana species combined, densities differed among topographic habitat types in the plot, with significantly higher densities on the seasonally drier lower plateau habitat (1044 individuals ha−1) than the moister slope habitat (729 individuals ha−1). Lianas were also significantly more abundant than expected in areas with low canopy height. 4. The proportion of liana species associated with one or more topographic habitat variables (44%) was significantly lower than that for trees (66%). Similarly, liana species were significantly less frequently associated with PC axes derived from soil chemical variables (21%) than trees (52%). The majority of liana species (63%) were significantly associated with areas of the plot with low canopy height reflecting an affinity for treefall gaps. 5. Synthesis. The habitat associations detected here suggest that liana density is associated primarily with canopy disturbance, and to a lesser extent with topography and soil chemistry. Relative to trees, few liana species were associated with local variation in topography and soil chemistry, suggesting that nutrient availability exerts only weak effects on liana community composition compared to trees. Results from this study support the contention that increases in forest disturbance rates are a driver of recently observed increases in liana abundance and biomass in neotropical forests. [ABSTRACT FROM AUTHOR]

Published

2012

13. Tropical tree seedling growth responses to nitrogen, phosphorus and potassium addition.

Author

Santiago, Louis S., Wright, S. Joseph, Harms, Kyle E., Yavitt, Joseph B., Korine, Carmi, Garcia, Milton N., and Turner, Benjamin L.

Subjects

TREE seedlings, FOREST ecology, PLANT growth, PLANT nutrients, PHYSIOLOGICAL effects of nitrogen, PHYSIOLOGICAL effects of phosphorus

Abstract

Summary 1. Nutrients are a critical resource for plant growth, but the elements limiting growth in tropical forests have rarely been determined. 2. We investigated the influence of nitrogen (N), phosphorus (P), potassium (K) and micronutrients on seedling biomass and nutrient allocation in a factorial nutrient fertilization experiment in lowland tropical forest at the Barro Colorado Nature Monument, Panama. We also measured 8 years of herbivory and growth for 1800 seedlings. We sought to determine the identity of limiting elements and possible nutrient interactions. 3. The five study species were Alseis blackiana, Desmopsis panamensis, Heisteria concinna, Sorocea affinis and Tetragastris panamensis. Plants grew in deeply shaded understorey with a mean canopy openness of 4.9% (±0.7%; 1 SE). 4. Tissue N concentration increased by 11% with N addition. Tissue P concentration increased by 16% with P addition. Tissue K increased by 4% with K addition. K addition reduced root-to-shoot biomass ratio. There was no significant effect of fertilization on specific leaf area or leaf area ratio. 5. The proportion of leaves damaged and the mean level of damage by herbivory increased with P and K addition and showed a significant P × K interaction. 6.7ensp;Across all species and years, relative growth rate of height increased with K addition and with N and P in combination. Relative growth rate of leaf count trended 8.5% higher with K addition ( P = 0.076). 7. We also added micronutrients in a parallel experiment. There was no effect of micronutrient addition on any seedling parameter. 8. Synthesis. K addition affected seedlings by enhancing tissue nutrient concentration, increasing herbivory, reducing root-to-shoot biomass ratio and increasing height growth. Additional effects of N or P on tissue chemistry, herbivory and growth offer support for the multiple limiting resources hypothesis. Our results suggest that seedling growth is limited by nutrients, especially K, even under highly shaded conditions in this lowland tropical forest. [ABSTRACT FROM AUTHOR]

Published

2012

14. Relationships among net primary productivity, nutrients and climate in tropical rain forest: a pan-tropical analysis.

Author

Cleveland, Cory C., Townsend, Alan R., Taylor, Philip, Alvarez-Clare, Silvia, Bustamante, Mercedes M. C., Chuyong, George, Dobrowski, Solomon Z., Grierson, Pauline, Harms, Kyle E., Houlton, Benjamin Z., Marklein, Alison, Parton, William, Porder, Stephen, Reed, Sasha C., Sierra, Carlos A., Silver, Whendee L., Tanner, Edmund V. J., and Wieder, William R.

Subjects

PRIMARY productivity (Biology), RAIN forest ecology, CLIMATE change, SITE index (Forestry), TEMPERATURE effect, CITATION analysis

Abstract

Ecology Letters (2011) 14: 1313-1317 [ABSTRACT FROM AUTHOR]

Published

2011

15. Potassium, phosphorus, or nitrogen limit root allocation, tree growth, or litter production in a lowland tropical forest.

Author

Wright, S. Joseph, Yavitt, Joseph B., Wurzburger, Nina, Turner, Benjamin L., Tanner, Edmund V. J., Sayer, Emma J., Santiago, Louis S., Kaspari, Michael, Hedin, Lars O., Harms, Kyle E., Garcia, Milton N., and Corre, Marife D.

Subjects

POTASSIUM, PHOSPHORUS, NITROGEN, BIOMASS

Abstract

We maintained a factorial nitrogen (N), phosphorus (P), and potassium (K) addition experiment for 11 years in a humid lowland forest growing on a relatively fertile soil in Panama to evaluate potential nutrient limitation of tree growth rates, fine-litter production, and fine-root biomass. We replicated the eight factorial treatments four times using 32 plots of 40 x 40 m each. The addition of K was associated with significant decreases in stand-level fine-root biomass and, in a companion study of seedlings, decreases in allocation to roots and increases in height growth rates. The addition of K and N together was associated with significant increases in growth rates of saplings and poles (1-10 cm in diameter at breast height) and a further marginally significant decrease in stand-level fine-root biomass. The addition of P was associated with a marginally significant (P = 0.058) increase in fine-litter production that was consistent across all litter fractions. Our experiment provides evidence that N, P, and K all limit forest plants growing on a relatively fertile soil in the lowland tropics, with the strongest evidence for limitation by K among seedlings, saplings, and poles. [ABSTRACT FROM AUTHOR]

Published

2011

16. Soil fertility and fine root dynamics in response to 4 years of nutrient (N, P, K) fertilization in a lowland tropical moist forest, Panama.

Author

Yavitt, Joseph B., Harms, Kyle E., Garcia, Milton N., Mirabello, Matt J., and Wright, S. Joseph

Subjects

*SOIL fertility, *PLANT nutrients, *FORESTRY research, *FOREST biomass, *MINIRHIZOTRONS

Abstract

The question of how tropical trees cope with infertile soils has been challenging to address, in part, because fine root dynamics must be studied in situ. We used annual fertilization with nitrogen (N as urea, 12.5 g N m year), phosphorus (P as superphosphate, 5 g P m year) and potassium (K as KCl, 5 g K m year) within 38 ha of old-growth lowland tropical moist forest in Panama and examined fine root dynamics with minirhizotron images. We expected that added P, above all, would (i) decrease fine root biomass but, (ii) have no impact on fine root turnover. Soil in the study area was moderately acidic (pH = 5.28), had moderate concentrations of exchangeable base cations (13.4 cmol kg), low concentrations of Bray-extractable phosphate (PO = 2.2 mg kg), and modest concentrations of KCl-extractable nitrate (NO = 5.0 mg kg) and KCl-extractable ammonium (NH = 15.5 mg kg). Added N increased concentrations of KCl-extractable NO and acidified the soil by one pH unit. Added P increased concentrations of Bray-extractable PO and P in the labile fraction. Concentrations of exchangeable K were elevated in K addition plots but reduced by N additions. Fine root dynamics responded to added K rather than added P. After 2 years, added K decreased fine root biomass from 330 to 275 g m. The turnover coefficient of fine roots <1 mm diameter ranged from 2.6 to 4.4 per year, and the largest values occurred in plots with added K. This study supported the view that biomass and dynamics of fine roots respond to soil nutrient availability in species-rich, lowland tropical moist forest. However, K rather than P elicited root responses. Fine roots smaller than 1 mm have a short lifetime (<140 days), and control of fine root production by nutrient availability in tropical forests deserves more study. [ABSTRACT FROM AUTHOR]

Published

2011

17. Seed arrival and ecological filters interact to assemble high-diversity plant communities.

Author

Myers, Jonathan A. and Harms, Kyle E.

Subjects

*PLANT communities, *SEEDS, *PINE, *SAVANNAS, *SOIL moisture

Abstract

Two prominent mechanisms proposed to structure biodiversity are niche-based ecological filtering and chance arrival of propagules from the species pool. Seed arrival is hypothesized to play a particularly strong role in high-diversity plant communities with large potential species pools and many rare species, but few studies have explored how seed arrival and local ecological filters interactively assemble species-rich communities in space and time. We experimentally manipulated seed arrival and multiple ecological filters in high-diversity, herbaceous-dominated groundcover communities in longleaf pine savannas, which contain the highest small-scale species richness in North America (up to > 40 species/m²). We tested three hypotheses: (1) local communities constitute relatively open-membership assemblages, in which increased seed arrival from the species pool strongly increases species richness; (2) ecological filters imposed by local fire intensity and soil moisture influence recruitment and richness of immigrating species; and (3) ecological filters increase similarity in the composition of immigrating species. In a two-year factorial field experiment, we manipulated local fire intensity by increasing pre-fire fuel loads, soil moisture using rain shelters and irrigation, and seed arrival by adding seeds from the local species pool. Seed arrival increased species richness regardless of fire intensity and soil moisture but interacted with both ecological filters to influence community assembly. High-intensity fire decreased richness of resident species, suggesting an important abiotic filter. In contrast, high-intensity fire increased recruitment and richness of immigrating species, presumably by decreasing effects of other ecological filters (competition and resource limitation) in pos-tfire environments. Drought decreased recruitment and richness of immigrating species, whereas wet soil conditions increased recruitment but decreased or had little effect on richness. Moreover, some ecological filters (wet soil conditions and, to a lesser extent, high-intensity fire) increased similarity in the composition of immigrating species, illustrating conditions that influence deterministic community assembly in species-rich communities. Our experiment provides insights into how dispersal-assembly mechanisms may interact with niche-assembly mechanisms in space (spatial variation in disturbance) and time (temporal variation in resource availability) to structure high-diversity communities and can help guide conservation of threatened longleaf pine ecosystems in the face of habitat fragmentation and environmental change. [ABSTRACT FROM AUTHOR]

Published

2011

18. Functional traits and the growth-mortality trade-off in tropical trees.

Author

Joseph Wright, S., Kitajima, Kaoru, Kraft, Nathan J. B., Reich, Peter B., Wright, Ian J., Bunker, Daniel E., Condit, Richard, Dalling, James W., Davies, Stuart J., Diaz, Sandra, Engelbrecht, Betitina M. J., Harms, Kyle E., Hunbbell, Stephen P., Marks, Christian O., Ruiz-Jaen, Maria C., Salvador, Cristina M., and Zanne, Amy E.

Subjects

TREE growth, TREE mortality, ECOLOGICAL disturbances, FOREST canopies, PLANT species, SPATIAL variation

Abstract

A trade-off between growth and mortality rates characterizes tree species in closed canopy forests. This trade-off is maintained by inherent differences among species and spatial variation in light availability caused by canopy-opening disturbances. We evaluated conditions under which the trade-off is expressed and relationships with four key functional traits for 103 tree species from Barro Colorado Island, Panama. The trade-off is strongest for saplings for growth rates of the fastest growing individuals and mortality rates of the slowest growing individuals (r2 = 0.69), intermediate for saplings for average growth rates and overall mortality rates (r2=O.46), and much weaker for large trees (r2 < 0.10). This parallels likely levels of spatial variation in light availability, which is greatest for fast- vs. slow-growing saplings and least for large trees with foliage in the forest canopy. Inherent attributes of species contributing to the trade-off include abilities to disperse, acquire resources, grow rapidly, and tolerate shade and other stresses. There is growing interest in the possibility that functional .traits might provide insight into such ecological differences and a growing consensus that seed mass (SM), leaf mass per- area (LMA), wood density (WD), and maximum height (Hmax) are key traits among forest trees. Seed mass, LMA, WD, and Hmax are predicted to be small for light-demanding species with rapid growth and mortality and large for shade-tolerant species with slow growth and mortality. Six of these trait-demographic rate predictions were realized for saplings; however, with the exception of WD, the relationships were weak (r2 < 0.1 for three and r2 < 0.2 for five of the six remaining relationships). The four traits together explained 43-44% of interspecific variation in species positions on the growth-mortality trade-off however, WD alone accounted for >80% of the explained variation and, after WD was included, LMA and Hmax made insignificant contributions. Virtually the full range of values of SM, LMA, and Hmax occurred at all positions on the growth-mortality trade-off. Although WD provides a promising start, a successful trait-based ecology of tropical forest trees will require consideration of additional traits. [ABSTRACT FROM AUTHOR]

Published

2010

19. Does pyrogenicity protect burning plants?

Author

Gagnon, Paul R., Passmore, Heather A., Platt, William J., Myers, Jonathan A., Timothy Paine, C. E., and Harms, Kyle E.

Subjects

BIOTIC communities, PYROGENS, PLANTS, PLANT-soil relationships, SOIL temperature

Abstract

Pyrogenic plants dominate many fire-prone ecosystems. Their prevalence suggests some advantage to their enhanced flammability, but researchers have had difficulty tying pyrogenicity to individual-level advantages. Based on our review, we propose that enhanced flammability in fire-prone ecosystems should protect the belowground organs and nearby propagules of certain individual plants during fires. We base this hypothesis on five points: (I) organs and propagules by which many fire-adapted plants survive fires are vulnerable to elevated soil temperatures during fires; (2) the degree to which burning plant fuels heat the soil depends mainly on residence times of fires and on fuel location relative to the soil; (3) fires and fire effects are locally heterogeneous, meaning that individual plants can affect local soil heating via their fuels; (4) how a plant burns can thus affect its fitness; and (5) in many cases, natural selection in fire-prone habitats should therefore favor plants that burn rapidly and retain fuels off the ground. We predict an advantage of enhanced flammability for plants whose fuels influence local fire characteristics and whose regenerative tissues or propagules are affected by local variation in fires. Our "pyrogenicity as protection" hypothesis has the potential to apply to a range of life histories. We discuss implications for ecological and evolutionary theory and suggest considerations for testing the hypothesis. [ABSTRACT FROM AUTHOR]

Published

2010

20. Preference for Collpa Water by Frugivorous Bats ( Artibeus): An Experimental Approach.

Author

Bravo, Adriana, Harms, Kyle E., and Emmons, Louise H.

Subjects

BATS, PHYLLOSTOMIDAE, HYPOTHESIS, ARTIBEUS, MAMMALS

Abstract

Several species of stenodermatine bats congregate in large numbers at collpas in southeastern Peru to drink water. We conducted the first experimental tests of preference for collpa water by representative bats. Artibeus species preferred mineral-rich collpa water over water from other sources, supporting the hypothesis that they seek resources (especially sodium) at collpas. Abstract in Spanish is available at . [ABSTRACT FROM AUTHOR]

Published

2010

21. Influence of soils and topography on Amazonian tree diversity: a landscape-scale study.

Author

Laurance, Susan G. W., Laurance, William F., Andrade, Ana, Fearnside, Philip M., Harms, Kyle E., Vicentini, Alberto, and Luizão, Regina C. C.

Abstract

Question: How do soils and topography influence Amazonian tree diversity, a region with generally nutrient-starved soils but some of the biologically richest tree communities on Earth? Location: Central Amazonia, near Manaus, Brazil. Methods: We evaluated the influence of 14 soil and topographic features on species diversity of rain forest trees (≥10 cm diameter at breast height), using data from 63 1-ha plots scattered over an area of ∼400 km2. Results: An ordination analysis identified three major edaphic gradients: (1) flatter areas had generally higher nutrient soils (higher clay content, carbon, nitrogen, phosphorus, pH and exchangeable bases, and lower aluminium saturation) than did slopes and gullies; (2) sandier soils had lower water storage (plant available water capacity), phosphorus and nitrogen; and (3) soil pH varied among sites. Gradient 2 was the strongest predictor of tree diversity (species richness and Fisher's α values), with diversity increasing with higher soil fertility and water availability. Gradient 2 was also the best predictor of the number of rare (singleton) species, which accounted on average for over half (56%) of all species in each plot. Conclusions: Although our plots invariably supported diverse tree communities (≥225 species ha−1), the most species-rich sites (up to 310 species ha−1) were least constrained by soil water and phosphorus availability. Intriguingly, the numbers of rare and common species were not significantly correlated in our plots, and they responded differently to major soil and topographic gradients. For unknown reasons rare species were significantly more frequent in plots with many large trees. [ABSTRACT FROM AUTHOR]

Published

2010

22. Seed arrival, ecological filters, and plant species richness: a meta-analysis.

Author

Myers, Jonathan A. and Harms, Kyle E.

Subjects

*PLANT species, *META-analysis, *BIODIVERSITY, *EXPERIMENTAL ecology, *POPULATION dynamics, *BIOTIC communities

Abstract

Theoretical models predict that effects of dispersal on local biodiversity are influenced by the size and composition of the species pool, as well as ecological filters that limit local species membership. We tested these predictions by conducting a meta-analysis of 28 studies encompassing 62 experiments examining effects of propagule supply (seed arrival) on plant species richness under contrasting intensities of ecological filters (owing to disturbance and resource availability). Seed arrival increased local species richness in a wide range of communities (forest, grassland, montane, savanna, wetland), resulting in a positive mean effect size across experiments. Mean effect size was 70% higher in disturbed relative to undisturbed communities, suggesting that disturbance increases recruitment opportunities for immigrating species. In contrast, effect size was not significantly influenced by nutrient or water availability. Among seed-addition experiments, effect size was positively correlated with species and functional diversity within the pool of added seeds (species evenness and seed-size diversity), primarily in disturbed communities. Our analysis provides experimental support for the general hypothesis that species pools and local environmental heterogeneity interactively structure plant communities. We highlight empirical gaps that can be addressed by future experiments and discuss implications for community assembly, species coexistence, and the maintenance of biodiversity. [ABSTRACT FROM AUTHOR]

Published

2009

23. Local immigration, competition from dominant guilds, and the ecological assembly of high-diversity pine savannas.

Author

Myers, Jonathan A. and Harms, Kyle E.

Subjects

*EMIGRATION & immigration, *GUILDS, *SAVANNAS, *INTRODUCED plants, *INVASIVE plants, *BIODIVERSITY, *GREEN fescue, *PLANT communities, *PLANT ecology

Abstract

In high-diversity communities, rare species encounter one another infrequently and therefore may compete more intensely with common species or guilds for limiting space and resources. In addition, rare species may be strongly recruitment limited because of their low abundances. Under these conditions, stochastic dispersal and immigration history can have an important influence on community structure. We tested the hypothesis that local immigration and competition from common, large-stature guilds interact to structure local biodiversity in high-diversity long leaf pine savanna groundcover assemblages (>30 species/m²). In two factorial field experiments we increased local immigration by adding seeds of 38 mostly rare, small-stature forbs and sedges to plots physically dominated by either a common, large-stature bunchgrass or shrub species and to plots in which competition from these dominant guilds was reduced. We measured species richness and abundance at two spatial scales (0.01 and 0.25 m²) over two years. Immigration increased total species richness and richness of focal seed addition species regardless of levels of competition with bunchgrasses and shrubs, indicating that many rare, small-stature species can recruit in the face of potential competition from dominant guilds. Removal of dominant guilds increased total and focal species richness in shrub-dominated but not bunchgrass-dominated plots. In addition, competition from both dominant guilds had no clear effect on rank-abundance distributions of focal species. Our results suggest a key role for dispersal assembly in structuring local biodiversity in this high-diversity plant community, but the importance of this mechanism depends on the strength of local niche assembly involving competition from some, but not all, dominant guilds. [ABSTRACT FROM AUTHOR]

Published

2009

24. Decomposition in tropical forests: a pan-tropical study of the effects of litter type, litter placement and mesofaunal exclusion across a precipitation gradient.

Author

Powers, Jennifer S., Montgomery, Rebecca A., Adair, E. Carol, Brearley, Francis Q., DeWalt, Saara J., Castanho, Camila T., Chave, Jerome, Deinert, Erika, Ganzhorn, Jörg U., Gilbert, Matthew E., González-Iturbe, José Antonio, Bunyavejchewin, Sarayudh, Grau, H. Ricardo, Harms, Kyle E., Hiremath, Ankila, Iriarte-Vivar, Silvia, Manzane, Eric, de Oliveira, Alexandre A., Poorter, Lourens, and Ramanamanjato, Jean-Baptiste

Subjects

FOREST litter decomposition, SOIL invertebrates, ECOLOGY, METEOROLOGICAL precipitation, BIOTIC communities, PHOTOSYNTHESIS

Abstract

1. Litter decomposition recycles nutrients and causes large fluxes of carbon dioxide into the atmosphere. It is typically assumed that climate, litter quality and decomposer communities determine litter decay rates, yet few comparative studies have examined their relative contributions in tropical forests. 2. We used a short-term litterbag experiment to quantify the effects of litter quality, placement and mesofaunal exclusion on decomposition in 23 tropical forests in 14 countries. Annual precipitation varied among sites (760–5797 mm). At each site, two standard substrates ( Raphia farinifera and Laurus nobilis) were decomposed in fine- and coarse-mesh litterbags both above and below ground for approximately 1 year. 3. Decomposition was rapid, with >95% mass loss within a year at most sites. Litter quality, placement and mesofaunal exclusion all independently affected decomposition, but the magnitude depended upon site. Both the average decomposition rate at each site and the ratio of above- to below-ground decay increased linearly with annual precipitation, explaining 60–65% of among-site variation. Excluding mesofauna had the largest impact on decomposition, reducing decomposition rates by half on average, but the magnitude of decrease was largely independent of climate. This suggests that the decomposer community might play an important role in explaining patterns of decomposition among sites. Which litter type decomposed fastest varied by site, but was not related to climate. 4. Synthesis. A key goal of ecology is to identify general patterns across ecological communities, as well as relevant site-specific details to understand local dynamics. Our pan-tropical study shows that certain aspects of decomposition, including average decomposition rates and the ratio of above- to below-ground decomposition are highly correlated with a simple climatic index: mean annual precipitation. However, we found no relationship between precipitation and effects of mesofaunal exclusion or litter type, suggesting that site-specific details may also be required to understand how these factors affect decomposition at local scales. [ABSTRACT FROM AUTHOR]

Published

2009

25. Weak Competition Among Tropical Tree Seedlings: Implications for Species Coexistence.

Author

Paine, C. E. Timothy, Harms, Kyle E., Schnitzer, Stefan A., and Carson, Walter P.

Subjects

TREE seedlings, COMPETITION (Biology), BIODIVERSITY, ECOLOGY

Abstract

Copyright of Biotropica is the property of Wiley-Blackwell and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2008

26. Collpas: Activity Hotspots for Frugivorous Bats (Phyllostomidae) in the Peruvian Amazon.

Author

Bravo, Adriana, Harms, Kyle E., Stevens, Richard D., and Emmons, Louise H.

Subjects

BATS, FRUGIVORES, MAMMALS, ANIMAL offspring sex ratio, SEX ratio

Abstract

Copyright of Biotropica is the property of Wiley-Blackwell and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2008

27. Multiple nutrients limit litterfall and decomposition in a tropical forest.

Author

Kaspari, Michael, Garcia, Milton N., Harms, Kyle E., Santana, Mirna, Wright, Joseph, and Yavitt, Joseph B.

Subjects

CHEMICAL decomposition, NITROGEN, POTASSIUM, IRON, FORESTS & forestry

Abstract

To explore the importance of 12 elements in litter production and decomposition, we fertilized 36 1600 m2-plots with combinations of N, P, K, or micronutrients (i.e. B, Ca, Cu, Fe, Mg, Mn, Mo, S, Zn) for 6 years in a lowland Panamanian forest. The 90% of litter falling as leaves and twigs failed to increase with fertilization, but reproductive litter (fruits and flowers) increased by 43% with N. K enhanced cellulose decomposition; one or more micronutrients enhanced leaf-litter decomposition; P enhanced both. Our results suggest tropical forests are a non-Liebig world of multiple nutrient limitations, with at least four elements shaping rates of litterfall and decomposition. Multiple metallomic enzymes and cofactors likely create gradients in the break down of leaf litter. Selection favours individuals that make more propagules, and even in an N-rich forest, N is a non-substitutable resource for reproduction. [ABSTRACT FROM AUTHOR]

Published

2008

28. Testing metabolic ecology theory for allometric scaling of tree size, growth and mortality in tropical forests.

Author

Muller-Landau, Helene C., Condit, Richard S., Chave, Jerome, Thomas, Sean C., Bohlman, Stephanie A., Bunyavejchewin, Sarayudh, Davies, Stuart, Foster, Robin, Gunatilleke, Savitri, Gunatilleke, Nimal, Harms, Kyle E., Hart, Terese, Hubbell, Stephen P., Itoh, Akira, Kassim, Abd Rahman, LaFrankie, James V., Hua Seng Lee, Losos, Elizabeth, Makana, Jean-Remy, and Ohkubo, Tatsuhiro

Subjects

ECOLOGY, TREES, ALLOMETRY, DEMOGRAPHY, FORESTS & forestry

Abstract

The theory of metabolic ecology predicts specific relationships among tree stem diameter, biomass, height, growth and mortality. As demographic rates are important to estimates of carbon fluxes in forests, this theory might offer important insights into the global carbon budget, and deserves careful assessment. We assembled data from 10 old-growth tropical forests encompassing censuses of 367 ha and > 1.7 million trees to test the theory's predictions. We also developed a set of alternative predictions that retained some assumptions of metabolic ecology while also considering how availability of a key limiting resource, light, changes with tree size. Our results show that there are no universal scaling relationships of growth or mortality with size among trees in tropical forests. Observed patterns were consistent with our alternative model in the one site where we had the data necessary to evaluate it, and were inconsistent with the predictions of metabolic ecology in all forests. [ABSTRACT FROM AUTHOR]

Published

2006

29. Comparing tropical forest tree size distributions with the predictions of metabolic ecology and equilibrium models.

Author

Muller-Landau, Helene C., Condit, Richard S., Harms, Kyle E., Marks, Christian O., Thomas, Sean C., Bunyavejchewin, Sarayudh, Chuyong, George, Co, Leonardo, Davies, Stuart, Foster, Robin, Gunatilleke, Savitri, Gunatilleke, Nimal, Hart, Terese, Hubbell, Stephen P., Itoh, Akira, Kassim, Abd Rahman, Kenfack, David, LaFrankie, James V., Lagunzad, Daniel, and Hua Seng Lee

Subjects

TREES, FORESTS & forestry, TREE growth, ECOLOGY, DEMOGRAPHY

Abstract

Tropical forests vary substantially in the densities of trees of different sizes and thus in above-ground biomass and carbon stores. However, these tree size distributions show fundamental similarities suggestive of underlying general principles. The theory of metabolic ecology predicts that tree abundances will scale as the −2 power of diameter. Demographic equilibrium theory explains tree abundances in terms of the scaling of growth and mortality. We use demographic equilibrium theory to derive analytic predictions for tree size distributions corresponding to different growth and mortality functions. We test both sets of predictions using data from 14 large-scale tropical forest plots encompassing censuses of 473 ha and > 2 million trees. The data are uniformly inconsistent with the predictions of metabolic ecology. In most forests, size distributions are much closer to the predictions of demographic equilibrium, and thus, intersite variation in size distributions is explained partly by intersite variation in growth and mortality. [ABSTRACT FROM AUTHOR]

Published

2006

30. A LONG-TERM STUDY OF COMPETITION AND DIVERSITY OF CORALS.

Author

Connell, Joseph H., Hughes, Terence P., Wallace, Carden C., Tanner, Jason E., Harms, Kyle E., and Kerr, Alexander M.

Subjects

CORALS, CORAL reefs & islands, HURRICANES, MARINE biodiversity, MARINE resources, MARINE biology

Abstract

Variations in interspecific competition, abundance, and alpha and beta diversities of corals were studied from 1962 to 2000 at different localities on the reef at Heron Island, Great Barrier Reef, Australia. Reductions in abundance and diversity were caused by direct damage by storms and elimination in competition. Recovery after such reductions was influenced by differences in the size of the species pools of recruits, and in contrasting competitive processes in different environments. In some places, the species pool of coral larval recruits is very low, so species richness (5) and diversity (D) never rise very high. At other sites, this species pool of recruits is larger, and S and D soon rise to high levels. After five different hurricanes destroyed corals at some sites during the 38-year period, recovery times of S and D ranged from 3 to 25 years. One reason for the variety of recovery times is that the physical environment was sometimes so drastically changed during the hurricane that a long period was required to return it to a habitat suitable for corals. Once S and D have peaked during recolonization, they may either remain at a high level, or decline. In shallow water, with no deleterious changes in environmental conditions, S and D may not decline over time, because superior competitors cannot overtop inferior competitors without exposing themselves to deleterious aerial exposure at low tide. At other times and places, S and D did decline over time. One cause of this was a gradual deterioration of the physical environment, as corals grew upward into the intertidal region and died of exposure. S and D also fell because the wave action in hurricanes either killed colonies in whole or part, or changed the drainage patterns over the reef crest, leaving corals high and dry at low tide. [ABSTRACT FROM AUTHOR]

Published

2004

31. Variation in Small Sapling Density, Understory Cover, and Resource Availability in Four Neotropical Forests.

Author

Harms, Kyle E., Powers, Jennifer S., and Montgomery, Rebecca A.

Published

2004

32. Habitat associations of trees and shrubs in a 50-ha neotropical forest plot.

Author

Harms, Kyle E., Condit, Richard, Hubbell, Stephen P., and Foster, Robin B.

Subjects

*HABITATS, *TREES, *SHRUBS

Abstract

Investigates the habitat association of trees and shrub in neotrophical forest plot. Patterns of association between mapped plants and mapped habitat types; Significance of habitat association on the forest plot; Role of Habitat specialization on the species diversity in the forest.

Published

2001

33. Regeneration from Cotyledons in Gustavia superba (Lecythidaceae).

Author

Dalling, James W., Aizprúa, Rafael, and Harms, Kyle E.

Published

1997

34. Pollen placement on petals.

Author

Harms, Kyle E

Subjects

POLLEN, POLLINATION, LONGLEAF pine, FLOWER petals

Abstract

Many flowers attract pollinators with traits that stimulate animals' visual, olfactory, acoustic, gustatory, or tactile senses. If starkly contrasting pollen on petals makes flowers more attractive to pollinators, the sensitivity of pollen release may be adaptive. Alternatively, if pollen is deposited on petals by visitors that have already removed some nectar, then freckled petals may dissuade subsequent pollinators seeking virgin flowers. [Extracted from the article]

Published

2020

35. Tropical rain forest ecology.

Author

HARMS, KYLE E.

Subjects

*RAIN forests, *NONFICTION

Abstract

The article reviews the book " Tropical Rain forest Ecology, Diversity, and Conservation," by Jaboury Ghazoul and Douglas Sheil.

Published

2011