Add to ORKGSilicon(Si)is the second most abundant element of the Earth crust. Its cycle is tightly linked to the carbon(C)cycle as Si fluxes from land to ocean tremendously impact the C storage capacity of the oceans. Both the agricultural land use and the soil weathering degree impact these fluxes. However,little is known about the relative importance of the land use or of the soil weathering degree on the Si fluxes among one watershed. In this study,we quantified the Si pools in fluxes in banana,sugar cane,and forested plots on the volcanic island of Basse Terre(Guadeloupe)under different climatic conditions to determine the impa ct of the soil weathering degree and of the land use on the Si cycle. Si fluxes werealso quantified in two rivers at diff...
The amount of water available to leach solutes from soil is one of the major features determining mi...
Abstract Several plant species accumulate silicon, which is taken up by roots in soil solution. The ...
International audienceIt is well documented that the global cycle of Si is strongly intertwined with...
The importance of plant bio-cycling in the biogeochemical cycle of Si has been pointed out by recent...
Plants take up silicon (Si) from soil solution, and form biogenic silica bodies (phytoliths) that re...
Several plant species accumulate silicon, which is taken up by roots in soil solution. The Si concen...
International audienceSavannas currently occupy a fifth of the earth's land surface and are predicte...
International audienceSilicon (Si) is the second most abundant element in the Earth’s crust after O....
A significant portion of the disproportionally high chemical weathering flux in volcanic island arcs...
Conversion of forest to arable land in Southern Brazil has led to anincrease in dissolved silicon fl...
International audienceThe contribution of plants to the biogeochemical cycle of Si and related weath...
The amount of water available to leach solutes from soil is one of the major features determining mi...
Abstract Several plant species accumulate silicon, which is taken up by roots in soil solution. The ...
International audienceIt is well documented that the global cycle of Si is strongly intertwined with...
The importance of plant bio-cycling in the biogeochemical cycle of Si has been pointed out by recent...
Plants take up silicon (Si) from soil solution, and form biogenic silica bodies (phytoliths) that re...
Several plant species accumulate silicon, which is taken up by roots in soil solution. The Si concen...
International audienceSavannas currently occupy a fifth of the earth's land surface and are predicte...
International audienceSilicon (Si) is the second most abundant element in the Earth’s crust after O....
A significant portion of the disproportionally high chemical weathering flux in volcanic island arcs...
Conversion of forest to arable land in Southern Brazil has led to anincrease in dissolved silicon fl...
International audienceThe contribution of plants to the biogeochemical cycle of Si and related weath...
The amount of water available to leach solutes from soil is one of the major features determining mi...
Abstract Several plant species accumulate silicon, which is taken up by roots in soil solution. The ...
International audienceIt is well documented that the global cycle of Si is strongly intertwined with...