Add to ORKGA one-year in situ experiment using 15N as a tracer was designed to assess the N recycling in the leaves of the seagrass Posidonia oceanica (L.) Delile. P. oceanica was shown to partly recycle the internal nitrogen pool of its leaves in order to contribute to new leaf growth. The leaves sampled in June 1999 contained 20% of the quantity of 15N found in June 1998. N recycling caused a difference between N and biomass turnover rate (0.8 vs 1.3 y-1) of Posidonia leaves. This 40% difference should correspond to the contribution of recycled N to the annual N requirement of Posidonia leaves. The N recycling appears to be insufficient to significantly reduce the quantitative impact of N loss due to autumnal leaf fall. However, new leaf growth betw...
Below-ground biomass and productivity were determined on one occasion in autumn for four local meado...
The dominant seagrass in Port Phillip Bay (PPB), Australia, Zostera nigricaulis, declined between 20...
Nitrogen (d15N) and carbon (d13C) isotopic compositions of Posidonia oceanic were determined during ...
A one-year in situ experiment using N-15 as a tracer was designed to assess the N recycling in the l...
peer reviewedThe uptake of nitrate and ammonium by the roots and leaves of Posidonia oceanica were d...
Nitrogen retention was investigated during 240 d in 1 3 1 m field plots of the tropical seagrass Tha...
Translocation of carbon (C) and nitrogen (N) was investigated in response to shading of the seagrass...
The lack of simultaneous measurements of N2 fixation associated with different plant tissues in seag...
We examined the retention of nitrogen associated with sedimented planktonic material trapped within ...
Efficient nutrient resorption from senescing leaves, and extended leaf life spans are important stra...
Translocation of 13C and 15N was investigated at the spatial scales of within-shoot (i.e. the seagra...
A N-15 tracer study was performed during an experimental transplantation trial of natural Posidonia ...
In situ nitrogen uptake by leaves and epiphytes was studied in a Mediterranean seagrass (Posidonia o...
Ammonium acquisition and internal allocation of nitrogen in the seagrass Amphibolis antarctica ((Lab...
The depletion of dry matter, N and P from seeds of Posidonia australis Hook. f. and Posidonia sinuos...
Below-ground biomass and productivity were determined on one occasion in autumn for four local meado...
The dominant seagrass in Port Phillip Bay (PPB), Australia, Zostera nigricaulis, declined between 20...
Nitrogen (d15N) and carbon (d13C) isotopic compositions of Posidonia oceanic were determined during ...
A one-year in situ experiment using N-15 as a tracer was designed to assess the N recycling in the l...
peer reviewedThe uptake of nitrate and ammonium by the roots and leaves of Posidonia oceanica were d...
Nitrogen retention was investigated during 240 d in 1 3 1 m field plots of the tropical seagrass Tha...
Translocation of carbon (C) and nitrogen (N) was investigated in response to shading of the seagrass...
The lack of simultaneous measurements of N2 fixation associated with different plant tissues in seag...
We examined the retention of nitrogen associated with sedimented planktonic material trapped within ...
Efficient nutrient resorption from senescing leaves, and extended leaf life spans are important stra...
Translocation of 13C and 15N was investigated at the spatial scales of within-shoot (i.e. the seagra...
A N-15 tracer study was performed during an experimental transplantation trial of natural Posidonia ...
In situ nitrogen uptake by leaves and epiphytes was studied in a Mediterranean seagrass (Posidonia o...
Ammonium acquisition and internal allocation of nitrogen in the seagrass Amphibolis antarctica ((Lab...
The depletion of dry matter, N and P from seeds of Posidonia australis Hook. f. and Posidonia sinuos...
Below-ground biomass and productivity were determined on one occasion in autumn for four local meado...
The dominant seagrass in Port Phillip Bay (PPB), Australia, Zostera nigricaulis, declined between 20...
Nitrogen (d15N) and carbon (d13C) isotopic compositions of Posidonia oceanic were determined during ...