Influence of long-term nutrient manipulation on specific leaf area and leaf nutrient concentrations in savanna woody species of contrasting leaf phenologies

Partitioning of water resources amongst plant species within a single climate envelope is possible if the species differ in key hydraulic traits. We examined 11 bivariate trait relationships across nine woody species found in the Ti-Tree basin of central Australia. We found that species with limited access to soil moisture, evidenced by low pre-dawn leaf water potential, displayed anisohydric behaviour (e.g. large seasonal fluctuations in minimum leaf water potential), had greater sapwood density and lower osmotic potential at full turgor. Osmotic potential at full turgor was positively correlated with the leaf water potential at turgor loss, which was, in turn, positively correlated with the water potential at incipient stomatal closure. We also observed divergent behaviour in two species of Mulga, a complex of closely related Acacia species which range from tall shrubs to low trees and dominate large areas of arid and semiarid Australia. These Mulga species had much lower minimum leaf water potentials and lower specific leaf area compared with the other seven species. Finally, one species, Hakea macrocarpa A.Cunn ex.R.Br., had traits that may allow it to tolerate seasonal dryness (through possession of small specific leaf area and cavitation resistant xylem) despite exhibiting cellular water relations that were similar to groundwater-dependent species. We conclude that traits related to water transport and leaf water status differ across species that experience differences in soil water availability and that this enables a diversity of species to exist in this low rainfall environment.

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Specific leaf area and hydraulic traits explain niche segregation along an aridity gradient in Mediterranean woody species

Perspectives in Plant Ecology Evolution and Systematics ◽

10.1016/j.ppees.2016.05.001 ◽

2016 ◽

Vol 21 ◽

pp. 23-30 ◽

Cited By ~ 29

Author(s):

José María Costa-Saura ◽

Jordi Martínez-Vilalta ◽

Antonio Trabucco ◽

Donatella Spano ◽

Simone Mereu

Keyword(s):

Leaf Area ◽

Specific Leaf Area ◽

Woody Species ◽

Niche Segregation ◽

Aridity Gradient

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Leaf properties, litter fall, and nutrient inputs of Terminalia ivorensis at different tree stand densities in a tropical timber - food crop multistrata system

Canadian Journal of Forest Research ◽

10.1139/x00-063 ◽

2000 ◽

Vol 30 (9) ◽

pp. 1400-1409 ◽

Cited By ~ 6

Author(s):

L Norgrove ◽

S Hauser

Keyword(s):

Leaf Area ◽

Leaf Litter ◽

Specific Leaf Area ◽

Nutrient Concentrations ◽

Litter Production ◽

Food Crops ◽

Litter Fall ◽

Nutrient Inputs ◽

Area Index ◽

Tropical Timber

Tree litter fall was monitored for 2 years in two Terminalia ivorensis A. Chev. plantations in the humid tropics of southern Cameroon. The plantations were 6 and 17 years old when they were each thinned to two timber stand densities (TSD) and understorey food crops were introduced. Leaf litter was the predominant litter fraction in all treatments. Treatment means of specific leaf area for T. ivorensis ranged from 83.7 to 100.7 cm2·g-1. Litter-fall production, leaf area per tree, and leaf area index for T. ivorensis were all higher in year 2 than in year 1. There was near complete defoliation of the T. ivorensis stand by Epicerura sp. (Lepidoptera: Notodontidae) caterpillars in the month just before the start of litter-fall sampling. This is the first report of an Epicerura sp. from Cameroon. Terminalia ivorensis leaf litter production per tree, specific leaf area, and leaf litter nutrient concentrations showed few significant differences between TSD treatments. This lack of response suggests that T. ivorensis is a suitable species for growing at stand densities lower than is normal silvicultural practice in association with food crops.

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A Model of Nutrient Response in Eucalyptus grandis Seedlings

Functional Plant Biology ◽

10.1071/pp9920459 ◽

1992 ◽

Vol 19 (5) ◽

pp. 459 ◽

Cited By ~ 13

Author(s):

PJ Sands ◽

RN Cromer ◽

MUF Kirschbaum

Keyword(s):

Leaf Area ◽

Specific Leaf Area ◽

Eucalyptus Grandis ◽

Nutrient Status ◽

Nutrient Addition ◽

Nutrient Concentrations ◽

Plant Nutrient ◽

Assimilation Rate ◽

Nitrogen And Phosphorus ◽

Rate Of Growth

Rate of growth in tree seedlings is dependent (amongst other factors) on the rate at which nutrients are absorbed by roots. Rate of nutrient addition to Eucalyptus grandis seedlings influences rate of growth through three main physiological mechanisms: the effects of plant nutrient concentration on biomass partitioning, specific leaf area, and assimilation. A simple dynamic model is presented to describe growth of E. grandis seedlings in response to different relative addition rates of nitrogen and phosphorus as reflected in plant nutrient status. The model takes account of effects of nutrient concentrations on partitioning, specific leaf area and light saturated assimilation rate. Model simulations demonstrate the influence relative nutrient addition rate has on key processes that influence relative growth rate, and that the relative importance of each of these is dependent on plant nutrient status. If plants are deficient in nitrogen, changes in growth consequent upon improved nutrient status are mediated primarily through effects on assimilate partitioning and light saturated assimilation rate. If plants have high nitrogen status, changes in growth consequent upon improved nutrient status are mediated primarily through effects on specific leaf area. If plants are deficient in phosphorus, changes in growth consequent upon improved nutrient status are mediated through effects on assimilation. If plants have high phosphorus status, changes in growth consequent upon improved nutrient status are mediated through effects on both assimilation and specific leaf area.

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Plant size effects on the relationships among specific leaf area, leaf nutrient content, and photosynthetic capacity in tropical woody species

Acta Oecologica ◽

10.1016/j.actao.2009.11.004 ◽

2010 ◽

Vol 36 (2) ◽

pp. 149-159 ◽

Cited By ~ 27

Author(s):

Fude Liu ◽

Wenjie Yang ◽

Zhongsheng Wang ◽

Zhen Xu ◽

Hong Liu ◽

...

Keyword(s):

Leaf Area ◽

Specific Leaf Area ◽

Size Effects ◽

Photosynthetic Capacity ◽

Woody Species ◽

Nutrient Content ◽

Plant Size

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Can antiherbivory resistance explain the abundance of woody species in a Neotropical savanna?

Botany ◽

10.1139/b11-087 ◽

2012 ◽

Vol 90 (2) ◽

pp. 93-99 ◽

Cited By ~ 3

Author(s):

Vinícius de Lima Dantas ◽

Marco Antônio Batalha

Keyword(s):

Leaf Area ◽

Specific Leaf Area ◽

Species Abundance ◽

Basal Area ◽

Woody Species ◽

Neotropical Savanna ◽

Resistant Species ◽

Resistance Model ◽

Species Abundances ◽

Poor Communities

The disturbance resistance model states that, in nutrient-poor communities, species more resistant to herbivory should dominate over the more palatable ones. Here we postulated that the disturbance resistance model should explain the species abundances in a nutrient-poor Neotropical savanna community. If so, the highly resistant species should be the commonest, whereas the poorly resistant ones should be rare. In an area of 2500 m2of woodland cerrado, a type of savanna, we measured the abundance of all 61 species as the total basal area and 9 antiherbivore defence traits from 10 individuals of each species. We used multiple and simple linear regressions to test the relationships between abundance and each trait or total investment in defence. Abundance was negatively related to specific leaf area (R2 = 0.18, b = –0.87, P < 0.001), but not with the other traits nor with total defence. The relationship between specific leaf area and abundance showed that plant functional traits may influence species abundance and supported the idea that nonrandom and resource-mediated processes should prevail at a fine scale. Nevertheless, we did not find strong evidence that antiherbivory resistance can explain species abundance in resource-poor communities, in contrast to the prediction of the disturbance resistance model.

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Consumption rate and dietary choice of cattle in species-rich mesic grasslands

10.1101/2020.01.23.916635 ◽

2020 ◽

Author(s):

Nóra Balogh ◽

Béla Tóthmérész ◽

Orsolya Valkó ◽

Balázs Deák ◽

Katalin Tóth ◽

...

Keyword(s):

Nitrogen Content ◽

Leaf Area ◽

Plant Species ◽

Specific Leaf Area ◽

Plant Biomass ◽

Vascular Plant ◽

Direct Effects ◽

Dietary Choice ◽

Biomass Removal

AbstractFor the improvement and maintenance of the desirable ecological value of grasslands it is necessary to manage them in a way which maintains their structure and their long-term functioning. Extensive grazing plays a crucial role in the seasonal biomass removal, thereby it prevents litter accumulation and shrub encroachment. Defoliation and biomass removal are among the most important effects of grazing on the vegetation, while the sufficient quantity and quality of plant biomass is an important ecosystem service for animal husbandry. In order to maintain the long term functioning of pastures it is important to gather information about the amount of consumed biomass and the dietary choice of the grazers. Therefore, we studied the direct effects of grazing on species-rich meadow steppes in Central-Hungary and the underlying mechanisms of dietary choice of cattle using trait-based approach. We asked the following questions: (i) What are the direct effects of grazing on the main biomass fractions (litter, moss, forbs and graminoids)? (ii) Which traits distinguish the preferred and non-preferred vascular plant species? The studied pastures were divided into two adjacent units, which were managed differently in the study year: the grazed units were managed by grazing for three months before the sampling date, while the control units remained ungrazed until the sampling. We collected above-ground biomass samples, measured leaf traits and shoot nitrogen content of plants. The consumption of the litter and moss biomass was negligible, while the reduction of the live biomass of vascular plants was 65%. Grazing significantly decreased the flowering success of plants. Cattle consumed species characterized by high specific leaf area and high nitrogen content. Based on our results we emphasize that, in order to ensure the reproduction of most plant species in the long term, it is unfavourable to graze an area every year in the same period. Instead, it is recommended to use grazing in a mosaic spatial and temporal pattern. The livestock carrying capacity of an area and the long-term management of grasslands can be carefully planned based on biomass measurements and the nutritional value of plants, which is well indicated by some easily measurable plant properties such as specific leaf area and the nitrogen content of species.

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Bacterial Communities and Enzymatic Activities in Sediments of Long-Term Fish and Crab Aquaculture Ponds

Microorganisms ◽

10.3390/microorganisms9030501 ◽

2021 ◽

Vol 9 (3) ◽

pp. 501

Author(s):

Zhimin Zhang ◽

Qinghui Deng ◽

Lingling Wan ◽

Xiuyun Cao ◽

Yiyong Zhou ◽

...

Keyword(s):

Bacterial Communities ◽

Enzymatic Activities ◽

Nutrient Concentrations ◽

Biological Processes ◽

Farming Practices ◽

Mitten Crab ◽

Aquaculture Ponds ◽

Pond Sediments ◽

Sediment Ph

Aquaculture is among the most important and fastest growing agriculture sectors worldwide; however, it generates environmental impacts by introducing nutrient accumulations in ponds, which are possibly different and further result in complex biological processes in the sediments based on diverse farming practices. In this study, we investigated the effects of long-term farming practices of representative aquatic animals dominated by grass carp (GC, Ctenopharyngodon idella) or Chinese mitten crab (CMC, Eriocheir sinensis) on the bacterial community and enzyme activity of sediments from more than 15 years of aquaculture ponds, and the differences associated with sediment properties were explored in the two farming practices. Compared to CMC ponds, GC ponds had lower contents of TC, TN, and TP in sediments, and similar trends for sediment pH and moisture content. Sediment bacterial communities were significantly different between GC and CMC ponds, with higher bacterial richness and diversity in GC ponds. The bacterial communities among the pond sediments were closely associated with sediment pH, TC, and TN. Additionally, the results showed profoundly lower activities of β-1,4-glucosidase, leucine aminopeptidase, and phosphatase in the sediments of GC ponds than CMC ponds. Pearson’s correlation analysis further revealed strong positive correlations between the hydrolytic enzyme activities and nutrient concentrations among the aquaculture ponds, indicating microbial enzyme regulation response to sediment nutrient dynamics. Our study herein reveals that farming practices of fish and crab differently affect bacterial communities and enzymatic activities in pond sediments, suggesting nutrient-driven sediment biological processes in aquaculture ponds for different farming practices.

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