Let $L/K$ be a Galois extension of number fields. Consider the natural map $$ F: H^1(\operatorname{Gal}(L/K), E(L)) \to \bigoplus_{v \in M_K} H^1(\operatorname{Gal}(L_w/K_v), E(L_{v_L})), $$ where $\operatorname{Gal}(L_w/K_v)$ denotes the local Galois group corresponding to the place $v$.
For an abelian group $M$, let $\hat{M}$ denote its Pontryagin dual.
In this context, the Tate-cohomology group is represented as $$ \hat{H}^0(\operatorname{Gal}(L/K),E(L)) = E(K)/(1+\sigma)E(L). $$(In other words, if we define a map $trace:E(L)\to E(K), P\to P+P^{\sigma}$, it is $ Coker(trace)$.)
According to p214 of the cited paper (link), it's claimed that $$ \operatorname{\widehat{coker}} F \cong \hat{H}^0(\operatorname{Gal}(L/K),E(L)), $$ but this is asserted without further explanation.
Could you provide some insights or suggest strategies for proving this isomorphism?