Hg. Adegbidi et al., Biomass and nutrient removal by willow clones in experimental bioenergy plantations in New York State, BIO BIOENER, 20(6), 2001, pp. 399-411
The development of short-rotation intensive cultural (SRIC) willow systems
as a source of bioenergy and bioproducts is growing in the northeastern and
midwestern United States. Important data for sustainable management such a
s nutrient removal and nutrient use efficiency in willow bioenergy plantati
ons is lacking. This study reports wood biomass production, annual removal
of nutrients, and nutrient use efficiency in experimental plantings of SRIC
willow and poplar at Tully, New York. Effects of clone, fertilization, irr
igation, planting density, and harvest cycle were analyzed.
Annual biomass production of 15-22 dry Mg/ha removed 75-86, 10-11, 27-32, 5
2-79 and 4-5 kg/ha/year of N, P, K, Ca and Mg, respectively. For all the va
riables studied, the responses depended on clone. Fertilization and irrigat
ion increased rates of nutrient removal by means of increased biomass produ
ction. Unlike planting density, harvest cycle significantly affected rates
of nutrient removal and nutrient use efficiency. For clone SV1 (Salix dasyc
lados), an irrigated and fertilized planting with a density of 36,960 trees
/ha harvested on a 3-year rotation had the highest biomass production and n
utrient use efficiency, and the lowest rates of nutrient removal. The annua
l harvest cycle had the lowest nutrient use efficiency and the highest annu
al removal of nutrients suggesting that this choice would be most appropria
te for biomass crops that are to be used as buffer ships to manage nutrient
runoff from agricultural fields. An appropriate choice of clone, planting
density, and harvest cycle could tailor the rates of nutrient removal and n
utrient use efficiency to match the objective of the planting. (C) 2001 Els
evier Science Ltd. All rights reserved.