Your search keyword '"litter nutrients"' showing total 3 results

1. Leaf Nutrients and Macroinvertebrates Control Litter Mixing Effects on Decomposition in Temperate Streams.

Author

Santonja, Mathieu, Rodríguez-Pérez, Héctor, Le Bris, Nathalie, and Piscart, Christophe

Subjects

*ALNUS glutinosa, *LEAVES, *PLANT litter decomposition, *FOREST litter, *INVERTEBRATES

Abstract

Plant litter decomposition is an essential ecosystem function in temperate streams. Both riparian vegetation and decomposer communities are major determinants of the decomposition efficiency and the interactions occurring within litter mixtures. However, the extent to which such litter mixture interactions are affected by combined shifts in litter traits and decomposer community is not well understood. We used leaf litter from 10 European tree species in order to study litter decomposition and litter mixture effects occurring in two-species litter mixtures in a temperate forested stream of northwestern France. The study distinguished between (1) decomposition involving microorganisms alone or together with invertebrates, and (2) decomposition involving litter mixtures of similar or dissimilar nutrient content. Increasing mean litter nutrient concentration favored both microbial activity and litter decomposition rate. Surprisingly, the highest litter mixture effects occurred in mixtures containing two nutrient-rich litters and occurred mainly in macroinvertebrate presence. Both the "mass ratio hypothesis," expressed as the community-weighted mean traits (TraitCWM), and the "niche complementarity hypothesis," expressed as the functional dissimilarity of litter traits (TraitFD), contributed to explain litter mixture effects. However, TraitCWM was found to be a better predictor than TraitFD. Finally, when evaluating the individual contributions of litter nutrients, calcium and magnesium appeared as important drivers of litter mixture effects. Our findings suggest that the mass ratio hypothesis overrules the niche complementarity hypothesis as a driver of litter diversity effects. Our study highlights the key importance of macroinvertebrates and of leaf nutrients, such as Ca and Mg, which are often neglected in decomposition studies in streams. [ABSTRACT FROM AUTHOR]

Published

2020

2. Understanding the relationship between soil properties and litter chemistry in three forest communities in tropical forest ecosystem.

Author

Mishra, Shruti, Singh, Kripal, Sahu, Nayan, Singh, Shiv Naresh, Manika, N., Chaudhary, L. B., Jain, M. K., Kumar, Vipin, and Behera, Soumit K.

Subjects

TROPICAL forests, COMMUNITY forests, TROPICAL dry forests, FOREST litter, MIXED forests, SOIL composition

Abstract

In this study, we investigated the relationship between soil properties and litter chemistry in three forest communities, i.e., Sal mixed forest (SMF), dry mixed forest (DMF), and teak plantation forest (TPF), in tropical deciduous forest ecosystem in North India. Fresh leaf litter and soil samples were collected at two soil depths (0–15 and 15–30 cm) from all these three forest communities. Litter bag experiment was also conducted to know differences in litter nutrients after its decomposition. The concentrations (mg kg−1) of different nutrients such as sodium (Na) 2.6, potassium (K) 38.5, calcium (Ca) 425, and carbon (C) 45.54% were highest in fresh litter collected from DMF. Total organic carbon (g kg−1) was significantly higher in SMF (19.23) in comparison to DMF (18.41) and TPF (13.61) at 0–15-cm soil depth. Na, K, Ca, available P, total P, available N, and total N were highest in DMF soil. We observed significantly positive correlation between all nutrients of litter and soil. Although soil bulk density (BD) and particle density (PD) showed their significant negative correlation with litter C, total porosity was positively correlated. Similarly, litter Na has its significant negative correlation with BD and positive correlation with PD. The litter chemistry played a significant role in changing soil pH and TOC. All litter nutrients, except total P, have their significant positive correlation with soil pH. Total P, C, and N of litter have their significant positive correlation with total soil organic carbon. This indicates that litter chemistry and soil properties have specific relation among them despite unique species composition in each forest community. [ABSTRACT FROM AUTHOR]

Published

2019

3. LITTER PRODUCTION AND LITTER NUTRIENT CONCENTRATIONS IN A FRAGMENTED AMAZONIAN LANDSCAPE.

Author

Vasconcelos, Heraldo L. and Luizão, Flávio J.

Subjects

FOREST litter, FOREST soils, EDGE effects (Ecology), FRAGMENTED landscapes, LANDSCAPE ecology

Abstract

The article presents a study which examines the effects of distance to forest edge and soil texture on fine-litter production and on nutrient concentrations in the leaf fall in a fragmented landscape in Brazilian Amazonia. A significant effect of distance to forest edge on litter production was observed, but no significant effect on soil texture. It notes the possible cascading effects of increased rates of litterfall on the ecology of fragmented forests.

Published

2004