are they going to make it, what did they see, who is going down, when are they coming back? so some days, like i said, are more challenging than others but for the most part, every day is great. every day is great. for sure. bottom out around 800 metres. so this is like the very first measurement an oceanographer would make from a site. you record the saltiness of the water throughout the whole depth profile and you record the temperature change. the ocean is getting warmer, it is acidifying, we are seeing much faster glacial melting, the ice sheets are melting, there s huge injections of fresh water that are going on. having this kind of information from remote parts of the world like this is really important to understand those changes.
is there a dive today, are they going to make it, what did they see, who is going down, when are they coming back? so some days, like i said, are more challenging than others but for the most part, every day is great. every day is great. for sure. bottom out around 800 metres. so this is like the very first measurement an oceanographer would make from the site, you record the saltiness of the water throughout the whole depth profile and you record the temperature change. the ocean is getting warmer, it is acidifying, we are seeing much faster glacial melting, the ice sheets are melting, there s huge injections of fresh water that are going on. having this kind of information from remote parts of the world like this is really important
are more challenging than others, but for the most part, every day is great. every day is great. for sure. bottom out around 800 metres. so this is like the very first measurement an oceanographer would make from a site you record the saltiness of the water throughout the whole depth profile and you record the temperature change. the ocean is getting warmer, it is acidifying, we are seeing much faster glacial melting, the ice sheets are melting, there s huge injections of fresh water that are going on. having this kind of information from remote parts of the world like this is really important to understand those changes. and we re going to be able to link this data to all of the species that we document through the video and through the edna, so we can link these species observations to the environmental conditions that they are found in.
of the water throughout the whole depth profile and you record the temperature change. the ocean is getting warmer, it is acidifying, we are seeing much faster glacial melting, the ice sheets are melting, there s huge injections of fresh water that are going on. having this kind of information from remote parts of the world like this is really important to understand those changes. and we re going to be able to link this data to all of the species that we document through the video and through the edna, so we can link these species observations to the environmental conditions that they are found in. edna stands for environmental dna, and it is dna that is left in the environment by all the organisms living there. so you can imagine a fish swimming through the environment is shedding skin cells and bodily fluids as it moves around, and all of that leaves a bit of dna behind in the environment. this expedition, we are collecting samples with niskin bottles, which are hollow tubes
it, what did they see, who is going down, when are they coming back? so some days, like i said, are more challenging than others but for the most part, every day is great. every day is great. for sure. bottom out around 800 metres. so this is like the very first measurement an oceanographer would make from the site, you record the saltiness of the water throughout the whole depth profile and you record the temperature change. the ocean is getting warmer, it is acidifying, we are seeing much faster glacial melting, the ice sheets are melting, there s huge injections of fresh water that are going on. having this kind of information from remote parts of the world like this is really important to understand those changes.