...
机译:牧场饲料中的全反转耕作增加土壤碳储存:新西兰为例
New Zealand Inst Plant &
Food Res Ltd Canterbury Agr &
Sci Ctr Christchurch Mail Ctr Private Bag 4704 Christchurch 8140 New Zealand;
New Zealand Inst Plant &
Food Res Ltd Canterbury Agr &
Sci Ctr Christchurch Mail Ctr Private Bag 4704 Christchurch 8140 New Zealand;
New Zealand Inst Plant &
Food Res Ltd Canterbury Agr &
Sci Ctr Christchurch Mail Ctr Private Bag 4704 Christchurch 8140 New Zealand;
New Zealand Inst Plant &
Food Res Ltd Canterbury Agr &
Sci Ctr Christchurch Mail Ctr Private Bag 4704 Christchurch 8140 New Zealand;
AgResearch Lincoln New Zealand;
Massey Univ Sch Agr &
Environm Environm Sci Grp Palmerston North New Zealand;
Massey Univ Sch Agr &
Environm Environm Sci Grp Palmerston North New Zealand;
deep soil carbon; full inversion tillage; grassland renovation; negative emission practice; offset greenhouse gas emissions; pasture renewal; soil carbon sequestration;
机译:在牧场期间的除草剂申请最初将根转周转和碳输入增加到多年生黑麦草和白色三叶草牧场的土壤
机译:免耕增加了土壤残渣的耕作系统的土壤有机碳储量并减少了二氧化碳的排放
机译:无耕作没有增加有机碳储存,而是刺激了一个集中栽培的砂土土壤中的N2O排放:负面气候效应
机译:新西兰vitrands(Pumice土壤)转换碳森林粉末植物粪便后碳和氮素股的变化
机译:土壤耕作对使用碳13天然丰度的土壤和植物碳库对二氧化碳排放的贡献的影响。
机译:物种多样性和放牧管理对加拿大大草原重建牧场的生产力动物性能和土壤固碳的影响
机译:新西兰牧场土壤碳储量的管理效果
机译:哥斯达黎加南部牧场森林砍伐与土壤碳和养分变化的关系